Historical Resources
Selected Research Advances
NIH has trained
a host of scientists in its intramural programs
and supported the training of hundreds of thousands
of scientists at universities and medical schools
around the country through research grants. These
scientists have gone on to become leaders in biomedical
research at universities and companies around
the country, fueling a great many advances in
the understanding and treatment of human diseases.
What follows is only a sampling of the scientific
advances supported by NIH in the past years.
2007
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1970s | 1960s
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1887-1950
2007
Disease Prevention, Diagnosis, and
Treatment
Established Drug Bests Newcomer in
Treating Female Infertility
Researchers reported that infertility arising
from polycystic ovary syndrome (PCOS) is better
treated with an established ovulation-inducing
drug (clomiphene) than with an increasingly
popular alternative (metformin). The NIH-funded
study was the largest, most comprehensive effort
to date comparing the 2 drugs' abilities to
promote pregnancy in women with PCOS, a hormonal
disorder that affects about 1 in 15 women and
is the leading cause of infertility.
Inhaled Steroids Best
Treatment for Children With Asthma
An NIH-funded study tested the effectiveness
and safety of 3 different asthma medicines in
nearly 300 school-age children. The scientists
found that inhaled corticosteroids are the most
effective initial daily therapy for children
with mild to moderate persistent asthma.
MRI Increases Detection
of Second Cancer in Opposite Breast
When a woman is newly diagnosed with
cancer in one breast, there's up to a 10% chance
that clinical exams and mammography will miss
a tumor growing in the opposite breast. An NIH-funded
study found that magnetic resonance imaging (MRI)
can help to detect these overlooked cancers in
the opposite breast at the time of initial diagnosis,
which may also lead to earlier treatment.
Depressed Adolescents
Respond Best to Combination Treatment
A major clinical trial found that a combination
of antidepressant medication and “talk
therapy,” or psychotherapy, appears to
be more effective for treating teens with major
depressive disorder than medication or psychotherapy
alone. The NIH-funded study enrolled 439 adolescents
who had major depression. At both 4 months
and 9 months after therapy began, response
rates to the combination treatment significantly
outpaced the 2 single-treatment approaches.
Lower Sodium Decreases
Long-Term Cardiovascular Risk
Several studies had already shown that lowering
your salt intake helps to prevent high blood
pressure, or hypertension. But a new NIH-funded
analysis found that less sodium can also prevent
heart disease. The researchers examined clinical
trial data from studies of more than 3,000
adults with pre-hypertension. Men and women
who reduced their salt intake had a 25% lower
risk of total cardiovascular disease over the
next 10 to 15 years.
Diagnosing Autism Spectrum
Disorder
Autism is rarely diagnosed before 3
years of age, but the sooner it is identified
and treated the better the outcome for the child.
NIH-supported scientists found that it's possible
to detect autism in some children as young as
14 months of age, the earliest the disorder has
ever been diagnosed. In other children, definite
signs of autism can be seen by about 2, the researchers
said. Their diagnoses were based on close assessment
of the children's social and communication skills.
Vaccine Shows Promise
in Preventing Hepatitis E
An experimental vaccine—originally
created and tested over the past 2 decades by
NIH scientists—appears safe and effective
in preventing hepatitis E, a sometimes-deadly
viral disease prevalent in developing countries.
A clinical trial involving nearly 2,000 healthy
adults in Nepal, where the virus is widespread,
found that the vaccine was nearly 96% effective
in preventing hepatitis E during a follow-up
period of about 2 years.
Treating Depression in
Patients with Bipolar Disorder
Patients with bipolar disorder have severe
mood swings between mania and depression. Treatment
typically involves mood-stabilizing drugs like
lithium or valproate. Two separate reports—both
part of a large-scale NIH-funded study of bipolar
disorder—looked at how well patients
with depression responded when additional treatments
were added to their mood-stabilizing therapy.
One found that adding an antidepressant medication
was no more effective than a sugar pill in
reducing depression. (NIH
press release | PubMed).
The other reported that patients tended to
get well faster and stay well if they received
intensive psychotherapy for several months.
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Promising Medical Advances
Soaking Up Toxic Protein to Stop Alzheimer's
Disease
Scientists used a variant version of a protein
called sLRP to soak up a toxic protein from
the bloodstream and prevent its buildup in
the brains of mice. The toxic protein, called
amyloid-beta, forms dense deposits in the brain
called plaques that have been linked to the
symptoms of Alzheimer's disease. The NIH-funded
researchers studied a strain of mice known
to develop Alzheimer-like symptoms. Mice treated
with the sLRP variant protein had improved
learning and memory, and amyloid-beta plaques
in their brains were reduced by about 90%.
New Risk Factors Identified
for Type 2 Diabetes
A collaborative effort by 3 international research
teams uncovered new clues about why some people
develop type 2 diabetes and others don't. The
research relied on a relatively new method,
called a genome-wide association study, which
rapidly and cost effectively analyzes and compares
genetic differences between people with and
without specific illnesses. The scientists
identified 4 new genetic risk factors for type
2 diabetes and confirmed 6 other genetic variants
previously associated with the disease.
Gene Variants That Help
Control HIV Infection
The first genome-wide association study of
an infectious disease, conducted by an international
group of researchers and funded in part by
NIH, offered a new understanding of why some
people can suppress virus levels following
HIV infection. The scientists identified several
genetic variants associated with the amount
of virus, or viral load, in a patient's bloodstream.
Other variants were linked to disease progression.
The findings provide new avenues for developing
vaccines and improved therapies to fight HIV
infection.
Second-Generation Map
of Human Genetic Variation
The International HapMap Consortium published
analyses of its second-generation map of human
genetic variation, which contains more than
3.1 million genetic variants—3 times
the number reported in the initial HapMap of
2005. The new HapMap includes DNA data from
4 diverse populations, based in Nigeria, China,
Japan and Utah in the United States. The improved
HapMap will help researchers find DNA variants
that influence the risk of disease and other
traits.
Lack of Sleep Disrupts
Brain's Emotional Controls
Experience tells us that sleepless nights can
lead to overwrought emotions. Now NIH-funded
scientists have a better understanding of why
this occurs. Their imaging studies showed that
lack of sleep can lead to greater activation
of the brain's emotional centers and disrupt
the brain circuits that tame emotional responses.
The findings suggest that sleep restores the
brain's emotional circuits and prepares people
for the next day's challenges and social interactions.
HIV's Potential Weak
Spot
Scientists identified a tiny, unchanging region
on an AIDS virus protein that may be the key
to neutralizing the virus. A multi-site research
team, including NIH scientists, used X-ray
crystallography to take detailed 3-D snapshots
of an antibody grabbing onto this stable viral
region, which HIV uses to latch onto and infect
T cells. The discovery of this potential viral
weak spot could have a profound impact on the
development of an AIDS vaccine.
Predicting Future Bird
Flu Mutations
To foretell how the avian flu virus might one
day jump from birds to humans, NIH scientists
have been looking at the molecular shapes of
viral molecules to see how they latch onto
cells. They found that just 2 mutations to
the viral H5 protein could change the shape
in a binding region and make it easier for
the avian H5N1 virus to latch onto human cells.
These studies could help researchers prepare
vaccines and therapies against deadly flu viruses
before they mutate and begin to spread in the
human population.
Stem Cell Treatment Repairs
Damaged Rat Hearts
NIH-funded researchers developed a procedure
for repairing damaged rat hearts by using cells
generated in a dish from human embryonic stem
cells. When the human-derived cells were implanted
into the damaged hearts of rats, new heart
muscle was incorporated into the heart tissue
within a month. Further testing showed that
the treatment thickened the heart's walls and
improved their ability to contract. The accomplishment
brings scientists a step closer to a treatment
for people who have had heart attacks.
Insights from the Lab
Versatile Human Stem
Cells Created Without Embryos
By modifying only 4 genes in human skin cells,
NIH-supported researchers found that they could "reprogram" the
cells to give them the characteristics of embryonic
stem cells. This major advance could open doors
to innovative therapies in the future, where
people's own cells might be reprogrammed and
used to repair their damaged tissues and organs.
The breakthrough might also eventually put
to rest the ethical controversy surrounding
stem cells.
Embryonic Stem Cell Milestone
Achieved in Primates
Researchers achieved a major milestone in embryonic
stem cell research, isolating embryonic stem
cells for the first time from a cloned primate
embryo. The scientists, funded by NIH, showed
that the stem cells could turn into heart or
nerve cells in the laboratory and had other
characteristics of established embryonic stem
cell lines. The technique, if developed in
humans, could potentially be used to make personalized
stem cells to treat diseases without worry
of rejection by the patient's immune system.
Tracking Neural Progenitor
Cells in the Human Brain
Scientists developed the first noninvasive
technique for detecting neural progenitor cells
in the living human brain. Neural progenitor
cells give birth to neurons and other types
of brain cells. This new imaging method may
eventually point to improved treatments and
diagnostics for a host of brain-related disorders,
including depression, Parkinson's disease and
brain tumors.
Structure of Common Drug
Target Unveiled
More than 40 years after beta blockers were
first used clinically, NIH-funded scientists
finally got a close-up, 3-dimensional look
at the drugs' molecular target: the β2-adrenergic
receptor. The receptor is one of a family of
proteins called G protein-coupled receptors
(GPCRs), which carry signals across the cell
membrane. GPCRs control critical bodily functions,
several of our senses and the action of about
half of today's pharmaceuticals. Better understanding
of the receptor's molecular shape promises
to help speed the discovery of new drugs and
illuminate many aspects of human health and
disease.
Brain Connections Revealed
Using a clever genetic trick to generate dozens
of different colors, NIH-supported researchers
visualized hundreds of cells and their connections
to each other in the brain. The scientists
developed DNA constructs, which they call “Brainbows,” that
randomly rearrange themselves to activate
genes for different-colored fluorescent proteins.
When the researchers created transgenic mice
with Brainbows, individual neurons in the
brain had distinctive colors, allowing them
to accurately trace specific cells and their
interactions with each other. This new tool
will help scientists better understand how
the brain and nervous system work.
Monkey Genome Gives Insight
into Humans
An international team of more than 170 scientists
sequenced the genome of the rhesus macaque
monkey and compared it to both the chimpanzee
and human genomes. Their analysis revealed
that the 3 primate species share about 93%
of their DNA. The team also identified nearly
200 genes that appear to play key roles in
differences between the species. These include
genes involved in hair formation, the immune
response and cell communication.
Proteins Pair to Form
Crucial Hearing Structure
NIH scientists and their collaborators identified
2 proteins that appear to pair up at the precise
location in the ear where sound vibrations
are turned into electrical signals. The investigators
also showed that a known deafness-causing mutation
seemed to disrupt interactions between the
2 proteins, called cadherin 23 and protocadherin
15. The findings may eventually help scientists
develop more precise treatments for hearing
loss, a condition that affects more than 32
million people in the United States alone.
Genetically Altered Mice
See a More Colorful World
By giving mice the gene that allows
people to see red hues, scientists created rodents
that can see a wider range of colors. Mouse eyes
normally have only 2 types of light-detecting
photoreceptors, sensitive to blue and green light.
NIH-funded scientists created genetically engineered
mice that also had photoreceptors for red light,
which are found in most primates. Tests showed
that the altered mice could perceive different
colors better than normal mice. The study suggests
that the brains of mammals can quickly adapt
to new sensory information. It also provides
clues to the evolution of color vision.
Prepared by Vicki Contie
Edited by Harrison
Wein, Ph.D.
January 2008
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2006
Disease Prevention, Diagnosis, and
Treatment
2005
Disease
Prevention, Diagnosis, and Treatment
Study
Shows Diuretics Work Better than Newer Medicines
for High Blood Pressure — The Antihypertensive
and Lipid-Lowering Treatment to Prevent Heart
Attack Trial (ALLHAT), a long-term, multi-center
trial of antihypertensive therapies funded by
NIH, found that diuretics work better than newer
therapies in treating high blood pressure and
reducing the risk of heart disease in both black
and non-black patients. The large study, with
33,357 participants, concluded that diuretics
should be the first therapy for most patients
with high blood pressure.
Tight
Glucose Control Cuts Heart Disease by Half in
People with Type 1 Diabetes — People
with type 1 diabetes can lower their risk of heart
disease and stroke by about 50% by tightly controlling
their blood glucose levels, according to a study
supported by NIH. The findings were based on a
follow-up study of patients who took part more
than a decade ago in the Diabetes Control and
Complications Trial, a major clinical study funded
by NIH along with Genentech, Inc. Continuing studies
will reveal whether the same applies to those
with type 2 diabetes, the more prevalent form
of the disease.
Computer
Models Guide Avian Flu Outbreak Planning
— Computer models developed by the NIH-funded
Models of Infectious Disease Agent Study (MIDAS)
research network found that a carefully chosen
combination of public health measures, if implemented
early, could stop the spread of an avian flu outbreak
at its source. The researchers found that antiviral
treatment is a critical component of a multi-pronged
approach.
Cognitive
Therapy Reduces Repeat Suicide Attempts by 50
Percent — People who had recently attempted
suicide were 50% less likely to try to kill themselves
again within 18 months when they were treated
with cognitive therapy, according to researchers
supported by NIH and the Center for Disease Control
and Prevention.
First
Phase II Trial of HIV/AIDS Vaccine —
An HIV/AIDS vaccine developed by scientists at
NIH's Dale and Betty Bumpers Vaccine Research
Center moved into its second phase of clinical
testing in October. This vaccine contains synthetic
genes representing HIV subtypes found in Europe,
North America, Africa and Asia that account about
85% of HIV infections worldwide.
Study
Finds Vitamin E Does not Protect Women from Heart
Attack, Stroke or Cancer — The Women's
Health Study, a long-term clinical trial funded
by NIH, found that vitamin E supplements don't
protect healthy women against heart attacks and
stroke. They also had no effect on the most common
cancers in women or on total cancers.
Older Children Can Benefit From Treatment
For Childhood's Most Common Eye Disorder
— Surprising results from a nationwide clinical
trial supported by NIH showed that many children
age seven through 17 with amblyopia (lazy eye)
may benefit from treatments that are more commonly
used on younger children. Treatment improved the
vision of many of the 507 older children with
amblyopia studied at 49 eye centers. Previously,
many eye care professionals thought that treating
amblyopia in older children would be of little
benefit.
NIH
Researchers Confirm Effectiveness of Immunotherapy
Approach to Melanoma — A team of NIH
researchers found that patients with advanced
melanoma who hadn't responded to standard therapies
had a significant reduction in the size of their
cancers as a result of receiving a new immunotherapy.
This immunotherapy consisted of a combination
of chemotherapy and reintroduction of the patients'
own white blood cells. The white blood cells were
removed from the patients, "re-educated"
to attack the tumor, and then reintroduced into
the patient. The promise of this therapy is that
a patient's own immune system can be used to effectively
treat existing tumors.
Possible
Treatment Changes for Asthma — Some people
with mild persistent asthma may be able to control
their asthma by taking corticosteroids only when
needed, according to a new study supported by
NIH. Official guidelines for this type of asthma
recommend daily long-term control medication to
prevent symptoms, along with quick-relief medication
as needed to treat acute symptoms. In this study,
those who took corticosteroids based on their
symptoms had about the same number of asthma flare-ups
as those taking daily, long-term control medications.
The finding needs to be confirmed in a larger
study, but it raises the possibility that some
patients may be able to safely avoid the expense
and inconvenience of daily medication.
Substance
in Urine Predicts Development of Preeclampsia
— A substance found in the urine of pregnant women
can be measured to predict the later development
of preeclampsia, according to research supported
by NIH. A pregnant woman with preeclampsia develops
dangerously high blood pressure and begins excreting
protein in her urine. In some cases, the condition
may progress to eclampsia, a series of potentially
fatal seizures. Researchers found that women were
highly likely to develop preeclampsia if they
had low levels of a substance known as placental
growth factor in their urine. They plan to try
to refine the finding into an accurate clinical
test.
Study
Links Obesity and Dementia — In a 27-year
study of over 10,000 people supported by NIH,
researchers found that middle-aged people who
were obese (those with a body mass index of 30
or above) had a 74% increased risk of dementia
later in life compared to people of normal weight
(body mass index 18.6-24.9), while overweight
people (body mass index 25.-29.9) had a 35% greater
risk. It's not clear why heavier people developed
dementia more often, but eating a low-fat diet
and exercising regularly may help reduce the risk
of developing the memory loss, concentration problems
and other symptoms of dementia later in life.
Rapid
New Test Developed for Inherited Immune Deficiency
— NIH researchers developed a new laboratory method
that rapidly identifies babies born with inherited
forms of Severe Combined Immunodeficiency (SCID),
an illness in which the infant fails to develop
a normal immune system. SCID babies can be infected
by a wide range of viruses, bacteria and fungi
that are normally controlled by a healthy baby's
immune system. If undetected and untreated, SCID
typically leads to death before the baby's first
birthday. The new genetic test, which still must
be validated before widespread use, could someday
be added to the panel of tests that already screen
newborns for a variety of disorders.
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Genomics
and Genetics
Dog
Genome Sequence Published — An international
team supported by NIH published the genome sequence
of the dog. Because of selective breeding over
the past few centuries, modern dog breeds are
a model of genetic diversity, from 6-pound Chihuahuas
to 120-pound Great Danes, from high-energy Jack
Russell Terriers to mild-mannered basset hounds,
and from the herding instincts of Shetland sheepdogs
to pointers pointing. However, selective breeding
has also caused many dog breeds to be predisposed
to genetic disorders including heart disease,
cancer and blindness. In combination with the
human genome, the dog genome sequence will help
researchers identify genetic contributors to several
diseases.
Genome
Comparison Finds Chimps, Humans Very Similar at
the DNA Level — The Chimpanzee Sequencing
and Analysis Consortium, which is supported in
part by NIH, described its landmark analysis comparing
the genome of the chimp ( Pan troglodytes ) with
that of humans ( Homo sapiens ). The chimp sequence
draft represents the first non-human primate genome.
Our closest living relatives share 96% of our
DNA sequence.
Three
Deadly Parasite Genomes Sequenced — An
international group of researchers working in
more than 20 laboratories around the globe and
funded in part by NIH sequenced the genomes of
three parasites that cause deadly insect-borne
diseases: African sleeping sickness, leishmaniasis
and Chagas disease. Knowing the full genetic make-up
of the three parasites might lead to better ways
to treat or prevent the diseases they cause.
Map
of Human Genetic Variation Completed
— The International HapMap Consortium, a public-private
effort to chart patterns of genetic variation
in the world's population, published the human
haplotype map, or HapMap. With more than 1 million
markers of genetic variation, the HapMap is a
comprehensive catalog of human genetic variation
showing “neighborhoods” of correlated genetic
variation, or haplotypes, across the entire human
genome. Researchers will be able to identify genetic
contributions to common diseases far more efficiently
using HapMap data than with traditional approaches.
Multi-Species
Genome Comparison Sheds New Light on Evolution
and Cancer — Researchers reconstructed
the genomes of long-extinct mammals and determined
the rates of mammalian chromosome evolution by
aligning the human, mouse, rat, cow, pig, dog,
cat and horse genomes. The study, funded in part
by NIH, found that evolution rates dramatically
accelerated around 65 million years ago, a period
that marked the end of the age of reptiles and
the arrival of the age of mammals. The researchers
also found that, contrary to what scientists had
long thought, mammalian chromosomes seem to have
breakpoint "hotspots." These tend to
have a high gene density and also seem to be associated
with cancer-associated chromosome abnormalities.
As more genomes become available, these relationships
will become clearer.
Gene
Found to Increase Risk of the Most Common Cause
of Blindness — Three independent research
teams supported by NIH found a gene, called complement
factor H (CFH), that affects a person's risk of
developing age-related macular degeneration (AMD),
the leading cause of blindness in people over
age 60. One team, which included NIH's own researchers,
found that people with this variant of the CFH
gene are more than seven times more likely to
develop the disease. The discovery suggests new
avenues for researchers to pursue in developing
ways to diagnose and treat AMD.
Gene
Found to Increase Risk of the Most Common Cause
of Blindness — Three independent research
teams supported by NIH found a gene, called complement
factor H (CFH), that affects a person's risk of
developing age-related macular degeneration (AMD),
the leading cause of blindness in people over
age 60. One team, which included NIH's own researchers,
found that people with this variant of the CFH
gene are more than seven times more likely to
develop the disease. The discovery suggests new
avenues for researchers to pursue in developing
ways to diagnose and treat AMD.
Scientists
Detect Probable Genetic Cause of Some Parkinson's
Disease Cases — Two new studies strongly
suggest that a mutation in a recently discovered
gene is the most common genetic cause of Parkinson's
disease identified to date. The finding could
lead to the development of a genetic test to detect
the mutation in individuals at risk. Parkinson's
disease, which affects at least 500,000 Americans,
is a progressive neurological disorder that is
caused by the degeneration of nerve cells in the
portion of the brain that controls movement. Scientists
have long suspected genetics play a role in the
onset of the disease. In these studies, the investigators,
which included investigators at NIH, found that
a mutation in the gene LRRK2 appears to occur
in at least one of every 60 people who have the
disease.
Scientists
Analyze Human Chromosomes 2 and 4 — A
detailed analysis of chromosomes 2 and 4 by researchers
supported by NIH detected the largest "gene
desert," a region without of any protein-coding
genes, known in the human genome and uncovered
more evidence that human chromosome 2 arose from
the fusion of two ancestral ape chromosomes. Chromosome
4 has long been of interest to the medical community
because it holds the gene for Huntington's disease,
polycystic kidney disease, a form of muscular
dystrophy and a variety of other inherited disorders.
Chromosome 2 is noteworthy for being the second
largest human chromosome, trailing only chromosome
1 in size, and home to the gene with the longest
known protein-coding sequence — for a muscle protein
called titin.
Research
Sheds New Light on Role of Sex Chromosomes in
Health and Disease — Two studies provided
a detailed analysis of the X chromosome's DNA
sequence and a survey of its gene activity. This
first comprehensive analysis of the sequence of
the human X chromosome, supported by NIH as well
as by the Department of Energy, provides new insights
into the evolution of sex chromosomes and the
biological differences between males and females.
Even though it contains only 4% of all human genes,
the X chromosome accounts for almost 10% of inherited
diseases caused by a single gene, including red-green
color blindness, hemophilia, some forms of mental
retardation and Duchenne muscular dystrophy. More
than 300 diseases have already been linked to
it.
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New
Research Directions
Protein
Structure Initiative Advances to Rapid Production
Phase — The Protein Structure Initiative
(PSI) completed its first 5-year phase and moved
into its second. The PSI, which is funded largely
by NIH, aims to figure out the three-dimensional
shapes of proteins, with the long-term goal of
being able to predict most protein structures
from their DNA sequences. More than 1,100 protein
structures were solved in the PSI's first phase,
which was dedicated to figuring out how to process
proteins and determine their three-dimensional
structures more efficiently. Phase 2 is the production
phase, in which thousands more protein structures
will be solved and put into the Protein Data Bank
(http://www.rcsb.org/pdb/
), a public repository with powerful tools
for processing protein structure information.
Scientists
Discover How Ebola Virus Infects Cells
— Researchers supported in part by NIH identified
two cellular enzymes that the Ebola virus must
have to reproduce. Ebola virus reproduction in
laboratory-grown cells was severely hampered by
chemicals that inhibited these enzymes. These
chemicals will now be further studied as possible
treatments for Ebola virus infections in humans.
Combination
Therapy Leads to Partial Recovery from Spinal
Cord Injury in Rats — A new method using
both stem cells and gene therapy promoted the
growth of myelin, the "insulation" around
nerve fibers, in the damaged spinal cords of rats.
It improved the animals' motor function and electrical
conduction from the brain to the leg muscles.
The finding, which was funded in part by NIH,
may lead to new ways of treating spinal cord injury
in humans.
Gene
Knockout Creates Fearless Mouse — Knocking
out a gene in the brain's fear hub created mice
unperturbed by situations that would normally
trigger fear responses, researchers funded in
part by NIH discovered. The gene codes for a protein
called stathmin, which appears to be critical
for the amygdala, where the brain's fear circuitry
is centered, to rearrange connections and form
fear memories. This finding may eventually lead
to improved treatments for anxiety disorders.
Brain
Chemical Plays Key Role in Both Food and Drug-Seeking
Behavior — Orexin, a brain chemical involved
in feeding behavior, arousal and sleep, also plays
a role in reward function and drug-seeking behavior,
according to NIH-funded research in rats. Activation
of orexin-secreting brain cells in the hypothalamus,
a brain region that controls many vital functions
such as eating, body temperature and fat metabolism,
is strongly correlated with food- and drug-seeking
behaviors. This finding helps to better identify
the neural pathways involved in drug abuse, craving
and relapse, and may ultimately help scientists
find more effective therapies.
Researchers
Pinpoint Chemical that Links Taste Buds to the
Nervous System — Researchers funded by
NIH pinpointed the chemical responsible for transmitting
signals from the taste buds — small sensory bumps
on the tongue, throat and roof of the mouth—to
the taste nerves leading to the brain. Adenosine
5'-triphosphate (ATP), a high-energy molecule
crucial for helping cells in the body to function,
turns out also to be the key neurotransmitter
linking taste buds to the nervous system. This
finding provides scientists with a more complete
picture of the complicated process, helping advance
the study of taste and taste disorders.
Exercise
Slows Development of Alzheimer's-Like Brain Changes
in Mice — Physical activity appears to
inhibit Alzheimer's-like brain changes in mice,
according to a new study supported by NIH. Long-term
physical activity enhanced the learning ability
of mice and decreased the level of plaque-forming
beta-amyloid protein fragments — a hallmark characteristic
of Alzheimer's disease — in their brains. Further
research will help reveal if the same holds true
in people.
Possible
Mechanism for Link between Sleep Disturbances
and Metabolic Syndrome — A new mouse
study supported by NIH suggests that a brain system
that controls the sleep/wake cycle might also
play a role in regulating appetite and metabolism.
Mice with a mutation in a gene called "Clock,"
which helps drive circadian rhythm, ate significantly
more and gained more weight. This finding could
help explain why disrupted sleep patterns — particularly
when combined with a high-fat diet — are sometimes
associated with excessive weight gain and the
onset of metabolic syndrome, a cluster of conditions
shown to increase a person's risk of heart disease
and stroke. At least 40 million Americans have
chronic sleep problems, and an additional 20 million
experience occasional sleeping problems. As many
as 47 million Americans have metabolic syndrome.
Microbicides
Protect Monkeys Against HIV-Like Virus
— Experiments in female monkeys showed for the
first time that vaginal gels known as microbicides
can protect against an HIV-like virus. The research,
funded largely by NIH, suggests that microbicides
could potentially provide a safe, effective and
practical way to prevent HIV transmission to women.
Artificial
Light at Night Stimulates Breast Cancer Growth
in Laboratory Mice — Results from a study
in laboratory mice showed that nighttime exposure
to artificial light stimulated the growth of human
breast tumors by suppressing levels of the hormone
melatonin. The study, which was supported by NIH,
also showed that extended periods of nighttime
darkness greatly slowed the growth of these tumors.
These results might explain why female night shift
workers have a higher rate of breast cancer. They
also offer a potential explanation for the epidemic
rise in breast cancer incidence in industrialized
countries like the U.S.
Substance
Protects Resilient Staph Bacteria — NIH
researchers identified a promising new target
in their fight against a dangerous bacterium that
sickens people in hospitals, especially people
who receive medical implants such as catheters,
artificial joints and heart valves. A substance
found on the surface of Staphylococcus epidermidis
was, for the first time, shown to protect the
harmful pathogen from natural human defense mechanisms
that would otherwise kill the bacteria. S. epidermidis
is one of several hard-to-treat infectious agents
that can be transmitted to patients in hospitals
via contaminated medical implants.
Novel
Therapy Tested in Mice Could Chase Away Cat Allergies
— A molecule designed to block cat allergies successfully
prevented allergic reactions in laboratory mice
as well as in human cells in a test tube, NIH-funded
researchers reported. The injectable treatment
puts a brake on the release of a key chemical
from cells involved in cat allergy reactions.
That chemical, histamine, brings on allergy symptoms
such as sneezing, wheezing, itching, watery eyes,
and sometimes asthma. When a cat-allergic person
touches or inhales a protein found in cat saliva
or dander (small flakes from its skin or hair),
key immune system cells respond by spewing out
histamine. Allergy experts estimate that 14 percent
of children 6 to 19 years old are allergic to
cats. In the future, the investigators say, these
promising results could lead to a new therapy
not only for human cat allergies, but also possibly
for severe food allergies such as those to peanuts.
Gene
Therapy Restores Hair Cells and Improves Hearing
in Deaf Guinea Pigs — Researchers supported
by NIH successfully used gene therapy to grow
new hair cells and restore some hearing in deaf
guinea pigs. The scientists used a harmless virus
to insert a gene called Atoh1, a key regulator
of hair cell development, into cells in the inner
ears of deaf adult guinea pigs. Eight weeks after
treatment, new hair cells had grown in the ears
treated with Atoh1, and their hearing had improved.
This is the first time that researchers have restored
auditory hair cells in live adult mammals. The
researchers caution that it will be several years
before Atoh1 gene therapy will be ready to test
in humans. Nevertheless, this study is an important
advance in hearing research. Scientists are now
one step further in the search for new ways to
treat hearing loss, a condition affecting about
28 million Americans.
Prepared
by Harrison
Wein, Ph.D.
January, 2006
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2004
Disease
Prevention, Diagnosis and Treatment
New Treatment Improves Outlook for Breast
Cancer Survivors — An international
clinical trial supported in part by NIH concluded
that women should consider taking letrozole after
five years of tamoxifen treatment to continue
to reduce the risk of breast cancer recurrence.
This very important advance in breast cancer treatment
will improve the outlook for many thousands of
women.
Gene Mutation Linked to Drug Effectiveness
in Lung Cancer — Mutation of a
gene involved in non-small cell lung cancer determines
whether the drug gefitinib (Iressa™) will
cause the tumors to shrink. Gefitinib is one of
a new generation of cancer chemotherapy drugs
designed to target specific molecular defects
that cause cancer. Previously, gefitinib had been
shown to cause tumor regression in certain patients
but not others, and researchers hadn’t been
able to predict which ones would respond. The
mutation, discovered by a team that included NIH
researchers, is in a gene that codes for the epidermal
growth factor (EGF) receptor – the enzyme
through which EGF sparks cell growth. Inhibition
of this type of enzyme has recently been a focus
for cancer researchers, but gefitinib had not
been as effective as some had expected based on
earlier clinical trials conducted in Japan. With
this new discovery, doctors will be able to select
those lung cancer patients who could benefit from
gefitinib.
Molecular Test Can Predict Risk of Breast
Cancer Recurrence — A new test
can predict the risk of breast cancer recurrence
and may help identify women who will benefit most
from chemotherapy, according to research supported
by NIH. The researchers used tissue samples and
medical records from women enrolled in clinical
trials of the cancer drug tamoxifen, which blocks
the effect of estrogen on breast cancer cells.
These women had a kind of breast cancer called
estrogen receptor-positive, lymph node-negative
(which means it needs estrogen to grow but has
not spread to the lymph nodes). Using samples
from 447 patients and a collection of 250 genes,
the researchers created a formula that can measure
the risk that a given cancer will recur. Their
results suggest that almost half of the 43,000
US women that are diagnosed with estrogen-dependent,
lymph-node negative breast cancer every year may
not need to go through the discomfort and side
effects of chemotherapy.
Estrogen and Heart Disease —
NIH instructed participants in the estrogen-alone
study of the Women’s Health Initiative (WHI),
a large multi-center trial, to stop taking their
study pills and to begin the follow-up phase of
the study. After careful consideration of the
data, NIH concluded that with an average of nearly
7 years of follow-up completed, estrogen alone
does not appear to affect (either increase or
decrease) heart disease, a key question of the
study. At the same time, estrogen alone appears
to increase the risk of stroke and decrease the
risk of hip fracture. It has not increased the
risk of breast cancer during the time period of
the study. The increased risk of stroke in the
estrogen-alone study is similar to what was found
in the WHI study of estrogen plus progestin when
that trial was stopped in July 2002. The NIH believes
that an increased risk of stroke is not acceptable
in healthy women in a research study.
Rotavirus Vaccine Created by NIH Scientists
Licensed for Commercialization —
An effective oral rotavirus vaccine created by
NIH scientists in the 1980s and developed further
through a cooperative research and development
agreement with an industry partner has now been
licensed by the NIH Office of Technology Transfer
to BIOVIRx, Inc. This vaccine can help prevent
the hundreds of thousands of deaths annually from
rotavirus diarrhea in children living in developing
countries.
Effectiveness of Safer Smallpox Vaccine
Demonstrated Against Monkeypox —
A mild, experimental smallpox vaccine known as
modified vaccinia Ankara (MVA) is nearly as effective
as the standard smallpox vaccine in protecting
monkeys against monkeypox, a study by NIH researchers
found. Monkeypox is used to test the effectiveness
of a smallpox vaccine because of its similarity
to the smallpox virus. These findings are important
in the search for a replacement vaccine for people
with health conditions that would prevent them
from using the current smallpox vaccine.
Mutant Gene Linked to Treatment-Resistant
Depression — A mutant gene that
starves the brain of serotonin, a mood-regulating
chemical messenger, has been discovered and found
to be ten times more prevalent in depressed patients,
researchers funded by NIH have found. The gene
codes for the brain enzyme tryptophan hydroxylase-2,
which makes serotonin. The mutant version results
in 80 percent less of the neurotransmitter. It
was carried by nine of 87 depressed patients,
three of 219 healthy controls and none of 60 bipolar
disorder patients. Patients with the mutation
failed to respond well to the most commonly prescribed
class of antidepressant medications, which work
via serotonin, suggesting that the mutation may
underlie a treatment-resistant version of the
illness.
Combination Treatment Most Effective in
Adolescents with Depression — A
clinical trial of 439 adolescents with major depression
found a combination of medication and psychotherapy
to be the most effective treatment. Funded by
the NIH, the study compared cognitive-behavioral
therapy (CBT) with fluoxetine, currently the only
antidepressant approved by the Food and Drug Administration
for use in children and adolescents. Seventy-one
percent of participants responded to the combination
of fluoxetine and CBT.
Researchers Report Early Success Using
Saliva to Detect Oral Cancer —
Scientists funded by NIH took a major step forward
in using saliva to detect oral cancer. The scientists
found that they could measure for elevated levels
of four distinct cancer-associated molecules in
saliva and distinguish with 91 percent accuracy
between healthy people and those diagnosed with
oral squamous cell carcinoma. This so-called "proof-of-principle"
study marks the first report in the scientific
literature that distinct patterns of "messenger
RNA" not only are measurable in saliva but
can indicate a developing tumor. Messenger RNA
(mRNA) is the molecular intermediate between gene
and protein, using the information in a gene to
guide how a protein is made. With further refinement
of this test, the researchers hope to attain the
necessary 99 to 100 percent accuracy of commercial
diagnostic tests. Oral squamous cell carcinoma
is the sixth most common cancer in the US. Currently,
no biochemical or genetic diagnostic tests are
commercially available for oral cancer.
Crohn's Disease Treatment Shows Promise
in Clinical Trial — In a small,
initial clinical trial led by NIH researchers,
doctors found that up to 75 percent of people
with Crohn's disease responded to an experimental
new treatment and up to 50 percent had long-term
remission of symptoms. Crohn's, which affects
an estimated 500,000 Americans, is an autoimmune
disease that attacks the bowels, causing abdominal
pain, cramping, diarrhea and rectal bleeding.
In severe cases, damaged bowel sections have to
be surgically removed. The new treatment is an
antibody designed to disable interleukin-12 (IL-12),
an immune system protein involved in inflammation.
People with Crohn's produce excess IL-12.
Substances Found in Blood May Predict
Development of Preeclampsia — Abnormal
levels of two molecules found in the blood appear
to predict the development of preeclampsia, a
life-threatening complication of pregnancy, according
to a study by a team that included NIH researchers.
Pregnant women with preeclampsia can develop dangerously
high blood pressure and begin excreting protein
in the urine. In some cases, the condition may
progress to eclampsia, a series of potentially
fatal seizures. Being able to predict the development
of preeclampsia may enable doctors to treat the
condition before it becomes a serious problem.
"Care Managers" Help Depressed
Elderly Reduce Suicidal Thoughts —
An intervention that includes staffing doctors’
offices with depression care managers helps depressed
elderly patients reduce suicidal thoughts, a study
funded by NIH found. Older Americans comprise
13 percent of the population but account for 18
percent of all suicides. The major risk factor
for suicide in late life is major depression.
Since most older Americans who kill themselves
have seen their doctor within the previous month,
treating depression in primary care can be an
effective way to save lives.
Methamphetamine Withdrawal and Brain Changes
— NIH researchers were part of a team that
used PET (positron emission tomography) scans
to find that people who have recently stopped
abusing the powerfully addictive drug methamphetamine
may have brain abnormalities similar to those
seen in people with mood disorders. The findings
suggest that health workers might improve success
rates for methamphetamine users receiving addiction
treatment by also providing therapy for depression
and anxiety.
Emotion-Regulating Protein Lacking in
Panic Disorder — Three brain areas
of panic disorder patients are lacking in a key
component of a chemical messenger system that
regulates emotion, researchers at NIH discovered.
The scientists used PET (positron emission tomography)
scans to visualize a type of serotonin receptor
called the serotonin 5-HT1A receptor, and compared
the brains of people who suffered from panic disorder
to those who did not. A new radioactive tracer
developed by NIH Clinical Center PET scan scientists
binds to the receptors, revealing their locations
and a numerical count by brain region. In the
panic disorder patients, the receptor is reduced
by nearly a third in three structures straddling
the center of the brain. This finding is the first
in living humans to show that 5-HT1A, which is
pivotal to the action of widely prescribed anti-anxiety
medications, may be abnormal in panic disorder
patients.
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Genomics and Genetics
Sequencing Consortium Reports Finished
Human Genome Sequence — The International
Human Genome Sequencing Consortium, led in the
United States by NIH's National Human Genome Research
Institute (NHGRI) and the Department of Energy
(DOE), published its scientific description of
the finished human genome sequence, reducing the
estimated number of human protein-coding genes
from 35,000 to only 20,000-25,000, a surprisingly
low number for our species.
Scientists Compare Rat Genome With Human,
Mouse — An international research
team supported by NIH completed a high-quality
draft sequence of the genome of the laboratory
rat, and used that data to explore how the rat's
genetic blueprint stacks up against those of mice
and humans. The rat sequence draft represents
the third mammalian genome to be sequenced to
high quality and described in a major scientific
publication. Comparing the human genome with those
of other organisms is helping researchers to better
understand the complex genomic components involved
in human health and disease.
Researchers Compare Chicken and Human
Genomes — An international research
consortium supported by NIH has found that chickens
and humans share more than half of their genes,
but that their DNA sequences diverge in ways that
may explain some of the important differences
between birds and mammals. The International Chicken
Genome Sequencing Consortium analyzed the sequence
of the Red Jungle Fowl (Gallus gallus), which
is the progenitor of domestic chickens. The chicken
is the first bird, as well as the first agricultural
animal, to have its genome sequenced and analyzed.
Recent outbreaks of avian flu have highlighted
the importance of learning more about the chicken
genome.
Gene Variants May Increase Susceptibility
to Type 2 Diabetes — International
research teams that included several NIH researchers
found variants in a gene called hepatocyte nuclear
factor 4 alpha (HNF4A) that may predispose people
to type 2 diabetes, the most common form of the
disease. For years, scientists have known that
single-gene mutations contribute to rare forms
of diabetes that account for about 2 to 3 percent
of all diabetes cases, but type 2 diabetes, which
accounts for 90 to 95 percent of all diabetes
cases in the U.S., is caused by more than a problem
with one gene. Type 2 diabetes usually begins
after age 40 in overweight, inactive people and
is more common in those with a family history
of diabetes. In the United States, type 2 diabetes
disproportionately affects African Americans,
Hispanic/Latino Americans, and American Indians.
Finding a gene that may increase susceptibility
to type 2 diabetes is a major breakthrough, but
translating this discovery into a treatment that
benefits people with diabetes or those at risk
is still years away. Scientists need to learn
much more about this gene.
Genome Sequence Reveals Leaner, Meaner
Intestinal Parasite — Researchers
supported by NIH completed the genome sequence
of Cryptosporidium parvum, an insidious, one-celled,
waterborne parasite that lodges in the intestines
of infected people and animals, and for which
there is currently no effective treatment. Cryptosporidium
is an extremely hardy parasite found in water
supplies throughout the world, including the United
States. For people with weakened immune systems
such as those with HIV/AIDS, the parasite can
lead to serious or life-threatening illness. Cryptosporidium
has been difficult to study up until now because
it has been virtually impossible to grow in the
laboratory. With a better understanding of this
parasite’s biology, researchers will be
better positioned to find treatments that zero
in on unique biological processes essential for
the organism's survival.
Gene Involved in Juvenile Rheumatoid Arthritis
— A genetic variation within the interleukin-6
(IL-6) gene increases susceptibility to systemic
juvenile rheumatoid arthritis (JRA), according
to researchers funded by NIH and the Arthritis
Research Campaign. Juvenile rheumatoid arthritis,
which has three main forms, affects each child
differently. Some experience swollen, painful
or stiff joints. Other common symptoms include
skin rashes, weak muscles, fevers and swollen
glands. Systemic juvenile rheumatoid arthritis,
the most severe type, can also affect internal
organs such as the heart, liver, spleen and lymph
nodes. Twenty percent of children with JRA have
the systemic form. Scientists suspect that JRA
is caused by a combination of environmental and
genetic factors.
Genes That Determine How Pollution Affects
Allergies — Researchers funded
by NIH identified a set of genes that influences
how pollution affects allergies. People with certain
versions of the genes were more likely to have
an allergic reaction to ragweed when it was mixed
with diesel exhaust particles. These genes code
for antioxidant proteins in the lungs that the
scientists believe detoxify chemicals found in
diesel exhaust particles. This discovery may help
scientists identify people whose asthma and hay
fever are more affected by pollution. It might
also help accelerate the development of drugs
to treat and prevent these disorders.
Honey Bee Genome Assembled —
The first draft version of the honey bee genome
sequence has been deposited into free public databases.
The sequence of the honey bee, Apis mellifera,
was funded largely by NIH, along with the U.S.
Department of Agriculture. The honey bee is valued
by farmers for its ability to produce honey and
pollinate crops. Biologists also are interested
in the honey bee's social instincts and behavioral
traits.
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New Research Directions
Sperm Provides Target for New Contraceptive
Approach — A team of researchers
funded by NIH found an enzyme in sperm that is
necessary for sperm movement. Mice bred to lack
this enzyme produce sperm that cannot swim toward
egg cells to fertilize them. The enzyme, known
as GAPDS, is essentially the same as an enzyme
produced in human sperm. It is found in the sperm's
flagellum, the snake-like tail which whips back
and forth to propel the sperm forward. Researchers
believe that designing a drug to disable this
enzyme might provide the basis for an effective
new form of male contraception. An understanding
of the enzyme and related chemical reactions might
also lead to insights into treatment for some
forms of male infertility.
Researchers Identify Brain Protein that
Halts Progression of Alzheimer's —
Researchers funded by NIH have identified a protein
in the brain that halts the progression of Alzheimer's
disease in human brain tissue. The protein, known
as transthyretin, protects brain cells from gradual
deterioration by blocking another toxic protein
that contributes to the disease. Scientists are
hopeful that this research will inspire a new
approach to the treatment of Alzheimer's, one
focused on preventing the loss of the brain cells
instead of treating the resulting symptoms. More
studies are needed to understand how transthyretin
might be used in treating Alzheimer's patients.
Scientists Take 'Snapshot' of Molecular
Tether for Anthrax and Staph Bacteria
— Scientists funded by NIH have snapped
a picture of the molecular tether that anthrax-
and staph-causing bacteria use to hook onto human
red blood cells. The tether, an enzyme called
sortase B, allows the bacteria to rob the cells
of iron, which they need to survive. Anthrax infection
can be life-threatening, while staph is responsible
for a range of health problems, including skin
infections and food poisoning. The scientists
hope to use their knowledge of this enzyme's structure
to rationally design new antibiotics that would
nip dangerous bacteria in the bud, before they
have a chance to cause infections.
Researchers Find Protein That Makes Long-Term
Memory Possible — From language
to literature, from music to mathematics, a single
protein, known as mBDNF, appears central to the
formation of the long-term memories needed to
learn these and all other disciplines. This discovery
brings the possibility of studying this protein
system in people with learning and memory disorders
and perhaps designing new medications to help
compensate for these problems.
Brain Signal Predicts Working Memory Prowess
— A person’s capacity for visual working
memory can be predicted by his or her brain waves,
researchers funded by NIH discovered. Some people
are better than others at remembering what they
have just seen — holding mental pictures
in mind from moment to moment. The researchers
found that a key brain electrical signal leveled
off when the number of objects held in a person’s
mind exceeded their capacity to accurately remember
them, while it continued to soar in those with
higher capacity.
New Technique Helps Scientists Solve 3-D
Protein Structures — A new technique
for engineering protein crystals is helping scientists
figure out the three-dimensional structures of
some important biological molecules, including
a key plague protein whose structure has previously
eluded researchers. The “crystal engineering”
technique, developed with support from NIH, promises
to help pharmaceutical companies develop more
effective drugs to treat various diseases by tailor-making
molecules to "fit" a protein's shape.
New Eggs Continue to Develop in Adult
Mice — Contrary to long-held scientific
views that the number of oocytes (eggs) in the
ovaries of most mammals is fixed at birth, scientists
supported by NIH reported that new oocyte-containing
follicles continue to develop in the ovaries of
adult mice. The research suggests that these new
oocytes come from stem cells located in the ovary.
Scientists have long believed that no new oocytes
were made after the ovary of any mammal, including
a woman, was formed, but this study provides evidence
challenging this belief.
HIV-Blocking Protein in Monkeys
— Scientists funded by NIH identified a
protein that blocks HIV replication in monkey
cells. Humans have a similar protein, although
it is not as effective at stopping HIV. The protein,
called TRIM5-alpha, blocks a key early stage of
HIV infection: the removal, or uncoating, of the
protective shell surrounding HIV’s genetic
material. This coat, called the capsid, must be
removed before HIV can insert its genetic material
into the host cell’s DNA and begin to make
copies of itself. The identification of a specific
protein that powerfully inhibits viral uncoating
provides a scientific springboard for future HIV/AIDS
therapies.
Monkey Talk, Human Speech Share Left-Brain
Processing — NIH researchers were
part of a team that used PET (positron emission
tomography) to pinpoint circuits in the monkey
brain that could be precursors of those in humans
for speech and language. As in humans, an area
specialized for processing species-specific vocalizations
is on the left side of the brain. An area near
the left temple responded significantly more than
the same area on the right to monkey calls, but
not to other animal calls, human voices or various
other sounds.
Transgenic Animals Produced Using Cultured
Sperm — NIH researchers, in collaboration
with Japanese colleagues, successfully created
transgenic zebrafish – ones to which novel
genes have been added – using sperm cells
grown under laboratory, or in vitro, conditions.
This is the first time that sperm cells have been
cultured entirely in vitro and used to produce
a transgenic animal. This achievement has implications
for a wide range of research from developmental
biology to gene therapy. The new technique has
the potential to speed the production of many
different types of transgenic animals that can
shed new light on human development and disease.
Prepared by Harrison Wein, Ph.D.
Email: weinh@od.nih.gov
May 12, 2005
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2003
|
Human Genome Project Completed — The International Human Genome Sequencing Consortium, led in the United States by NIH, completed the Human Genome Project more than 2 years ahead of schedule and for a cost substantially less than the original estimates. The international effort to sequence the 3 billion DNA letters is considered by many to be one of the most ambitious scientific undertakings of all time. The first draft of the human sequence was completed in June 2000. Since then, researchers have worked to convert the "draft" sequence into a "finished" sequence, which covers about 99 percent of the human genome's gene-containing regions, and has been sequenced to an accuracy of 99.99 percent. All of the sequence data have been deposited into public databases and made freely available to scientists around the world, with no restrictions on their use or redistribution.
Anthrax Genome Completed — The complete genetic blueprint of Bacillus anthracis — the microbe that gained notoriety during the 2001 anthrax mail attacks — has been completed by NIH-funded researchers. This bacterium, which can cause potentially fatal inhalational anthrax, differs very little from a common soil bacterium related to it. Scientists hope that the genetic differences between these two may reveal valuable clues to its vulnerabilities.
New "Prehypertension" Category — NIH published new clinical practice guidelines for the prevention, detection, and treatment of high blood pressure — a major risk factor for heart disease and the chief risk factor for stroke and heart failure. The guidelines define a new blood pressure category called "prehypertension" that includes about 22 percent of American adults, or about 45 million people. Americans' lifetime risk of developing hypertension is greater than previously thought, according to the new guidelines. Medications and lifestyle changes are both crucial parts of treatment.
SARS Cause Identified — NIH-supported investigators studied 50 Hong Kong patients with severe acute respiratory syndrome (SARS) and identified the virus that was causing the disease. It was revealed to be a new strain of coronavirus, a type of virus formerly associated in humans only with the common cold. Over 8,000 people worldwide became sick with SARS during the outbreak of 2003, according to the World Health Organization; of these, 774 died. The virus's isolation set the stage for the rapid sequencing of its genome as well as investigations into diagnostic tests and therapeutics to combat it.
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Heart Stem Cells Identified — A new study funded by NIH shows that the adult heart may contain stem cells that have the potential to regenerate tissue when the heart is damaged, such as during a heart attack. The heart had long been considered an organ that wasn't able to renew itself. Scientists now hope to harness these cells to develop new therapies to repair damaged hearts.
Ebola Vaccine Progress — A single shot of a fast-acting, experimental Ebola vaccine successfully protected monkeys from the deadly virus after only one month. Scientists at NIH's Dale and Betty Bumpers Vaccine Research Center (VRC) and the United States Army Medical Research Institute of Infectious Diseases at Fort Detrick, MD designed the vaccine. If this vaccine proves similarly effective in humans, it may one day allow scientists to quickly contain Ebola outbreaks with the same strategy successfully used in the past against smallpox. In November, VRC scientists opened the first human trial of a vaccine designed to prevent Ebola infection, administering the vaccine to a volunteer at the NIH Clinical Center in Bethesda.
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Structure of HIV-Neutralizing Antibody Solved — A team of scientists whose leaders are funded by NIH solved the three-dimensional structure of an antibody that is able to neutralize HIV, the virus that causes AIDS. The antibody, called 2G12, was isolated about a decade ago from one of the rare HIV-positive people whose body is able to successfully combat the virus. The structure of the 2G12 antibody provides scientists with a template in their attempts to design innovative vaccines to trigger the body's production of HIV-neutralizing antibodies.
New Treatment For Breast Cancer Survivors — An international clinical trial found that post-menopausal survivors of early-stage breast cancer who took the drug letrozole after completing an initial 5 years of tamoxifen therapy had a significantly reduced risk of cancer recurrence compared to women taking a placebo. The women taking letrozole had a reduction in the number of recurrences of cancer in their previously affected breast, a reduction in the number of new cancers in their opposite breast, and a reduction in the spread of the cancer outside their breast. Deaths from breast cancer were also reduced. While tamoxifen is widely used to prevent breast cancer recurrence in post-menopausal women, it stops being effective after about 5 years because, researchers believe, tumors become resistant to it. NIH participated in and partly supported this Canadian-led study. Novartis, which manufactures letrozole (also known as Femara®), provided the drug for the trial.
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Gene Linked to Depression — Researchers supported by NIH found a gene, the serotonin transporter gene (5-HTT), that influences whether people become depressed when faced with major life stresses such as relationship problems, financial difficulties and illness. The gene by itself does not cause depression, but it does affect how likely people are to get depressed when faced with major life stresses. Those who carried one version of the gene had more symptoms of depression, more diagnoses of depression, and more thoughts of or attempts at suicide after stressful life events than those who didn't carry it. Significantly, among those who hadn't experienced major life stresses during the study, the gene played no detectable role in their risk of depression or suicide.
Gene Affects College Drinking Habits — Researchers identified a gene, the serotonin transporter gene (5-HTT), that may predispose young people to harmful drinking habits. A team of scientists interviewed college students about their alcohol consumption and then analyzed their genetic profiles, or genotypes. They found that students who shared a particular variant of 5-HTT consumed more alcohol per occasion, more often drank expressly to become inebriated, and were more likely to engage in binge drinking than students without the variant.
Gene Signaling Puberty — NIH-funded researchers, using tools from the NIH-sponsored Human Genome Project, identified a gene that appears to be a crucial signal for the beginning of puberty in human beings as well as in mice. Without a functioning copy of the gene, both humans and mice appear to be unable to enter puberty normally.
Stem Cells from Baby Teeth — A team led by NIH researchers discovered that "baby" teeth, the temporary teeth that children begin losing around their sixth birthday, contain a rich supply of stem cells in their dental pulp. The cells, named SHED, remain alive inside the tooth for a short time after it falls out of a child's mouth. This easily accessible source of stem cells could be readily harvested for research. Scientists hope they can learn to manipulate them to repair damaged teeth, induce the regeneration of bone, and treat neural injury or disease.
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Women's Heart Attack Signs Differ From Men's — A new study — one of the first to look at symptoms before and during heart attacks in women — found that fewer than 30% of women reported chest pain and discomfort prior to a heart attack, and 43% didn't experience chest pain during one. Most doctors consider chest pain the most important heart attack symptom for both men and women, but the women's most frequently reported early warning symptoms were unusual fatigue (70.7%), sleep disturbance (47.8%), and shortness of breath (42.1%). This finding may help women and their doctors more accurately identify the early warning symptoms of a heart attack so that they can better forestall or prevent the attacks.
Moderate Physical Activity Promotes Weight Loss — Women trying to lose weight can benefit as much from moderate physical activity as from an intense workout, according to a new study supported by NIH. With a diet reduced in calories and fat, physical activity of moderate intensity is enough to help overweight people lose weight. The key is not how intense your workouts are, the study suggests, but how much total energy you burn in the end.
Insight into Parkinson's Disease — NIH researchers were part of a team that discovered that too much of a normal form of the α-synuclein gene may cause Parkinson's disease. Mutations in the α-synuclein gene were previously linked to the disease in some families. These researchers were investigating a rare form of early-onset Parkinson's disease in one family for many years, and were puzzled because a genetic analysis of some family members failed to reveal an α-synuclein mutation. The scientists thought perhaps an entirely different genetic mutation might account for this family's Parkinson's disease. But they found that, instead of the usual two copies of the α-synuclein gene, the people in this family had four copies. This multiplication of the α-synuclein gene resulted in them having too much synuclein. Buildup of the protein is believed to cause their Parkinson's disease symptoms. Parkinson's disease is the second most common neurodegenerative disease in the U.S., after Alzheimer's disease, currently affecting at least 500,000 Americans.
Potential Screening Tool for Alzheimer's Disease — NIH scientists found that levels of two key proteins could be used to distinguish clinically diagnosed Alzheimer's patients from controls. The proteins, beta-amyloid and tau, are located in the cerebrospinal fluid, which bathes the brain. Scientists hope that "markers" such as these could eventually be used as predictive and diagnostic tools to help identify people at risk for developing Alzheimer's disease who may not yet show any symptoms. Longer term studies are now under way to further test these markers.
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Very Low Lead Levels Linked with IQ Deficits— A study funded by NIH suggested that lead may be harmful to young children even at very low blood concentrations. The five-year study found that children who have blood lead concentration lower than 10 micrograms per deciliter suffer intellectual impairment from the exposure. Previous research has focused primarily on lead's effects in the 10 to 30 micrograms per deciliter range. Ten micrograms per deciliter is the threshold currently used by the Centers for Disease Control and Prevention to define an elevated lead level.
Diagnosis and Treatment of Liver Cancer — A pattern of gene activity unique to hepatocellular carcinoma (HCC), a type of liver cancer, was identified by NIH researchers in collaboration with surgeons in Shanghai, China. The pattern, akin to a molecular signature, can be used to classify metastatic HCC patients and identify genes related to patient survival. Researchers identified one particular gene called osteopontin as a potential therapeutic target. HCC is one of the most common and aggressive malignant tumors worldwide. These findings pave the way for development of a diagnostic test that may help predict whether a cancer will spread, and might help physicians decide on the best treatment for a patient.
Protein Tied to Preeclampsia — Researchers supported by NIH linked excess levels of a protein called sFlt1 to the condition preeclampsia, a leading cause of fetal complications including low birth weight, premature birth, and stillbirth. Preeclampsia affects up to 5 percent of pregnancies. It is characterized by increased blood pressure and protein in the mother's urine. Preeclampsia can cause seizures and lead to eclampsia, the second leading cause of maternal death in the U.S. This discovery is an important step in the effort to design better treatments for the condition.
How the Embryo Attaches to the Uterus — Researchers supported by NIH have discovered how an embryo attaches to the wall of the uterus in what may be one of the earliest steps needed to establish a successful pregnancy. After an egg is fertilized, a specialized protein called L-selectin on the embryo surface binds to carbohydrates on the uterine wall. Scientists think that this interaction slows the embryo down to a complete stop so it can then attach to the wall of the uterus. The finding may lead to insights into infertility and early pregnancy loss.
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Filtering Water with Cloth Reduces Cholera — An international research team funded by NIH found that filters made from old cotton saris cut the number of cholera cases in rural Bangladesh villages almost in half. Other inexpensive cloth should work just as well in other parts of the world where cholera is endemic. Cholera is a waterborne disease that causes severe diarrhea and vomiting, killing thousands of people around the world every year. This simple preventive measure has the potential to make a significant impact on a global health problem.
Single Protein Key to Both Bacterial and Viral Infections — A single protein acts as a key switch point in frontline immune system reactions to both bacterial and viral infections, according to a team of scientists supported by NIH. This may explain why certain symptoms, such as fever, occur regardless of the cause of infection.
Understanding Anthrax — A study of anthrax in mice by NIH scientists showed that the toxins released by the bacteria don't kill as scientists had previously believed. Anthrax was thought to kill like many other bacteria, through the body's release of chemicals called cytokines. But this study found no link between cytokines and anthrax's toxic effects. Researchers still don't know exactly how the anthrax toxins lead to death, but this result suggests that current efforts to design cytokine-suppressing drugs to treat anthrax may be misguided. This information is crucial for the design of future therapies.
New Insights Into Antidepressants — Blocking the formation of neurons in the hippocampus area of the brain blocks the behavioral effects of antidepressants in mice, according to researchers funded by NIH. Their finding lends new credence to the idea that antidepressants lift mood, at least in part, by causing new neurons to grow in the brain. This idea also may explain why antidepressants typically take a few weeks to work.
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New Drug to Suppress the Immune System — A new immunosuppressant drug, CP-690,550, developed by Pfizer Global Research and Development with help from NIH researchers, has been successfully tested in mice and monkeys, and may eventually prove to be a major help for those needing organ transplants or with autoimmune diseases. Immunosuppressant drugs are designed to inhibit the body's immune system so that the body doesn't reject transplanted organs, and to treat autoimmune diseases such as lupus, rheumatoid arthritis, eczema and psoriasis — conditions in which the body's own immune system attacks healthy, normal tissue as if it were an invading microbe. The new drug suppresses the immune system with fewer side effects than other drugs. Further animal studies are now being done to determine if it could be tested safely in humans.
Progress Shown in Death Rates From Four Leading Cancers — Death rates from the four most common cancers — lung, breast, prostate, and colorectal — continued to decline in the late 1990s according to new data from the "Annual Report to the Nation on the Status of Cancer, 1975-2000." For all cancers combined, the death rate began to stabilize in the late 1990s, showing neither an increase nor a decrease, while the incidence rate (newly diagnosed cases) began to stabilize in the middle of the decade.
Cigarette Smoke Affects More Than the Lungs — Research supported by NIH shows that cigarette smoke not only directly and often fatally damages the lungs; it also decreases levels of a critical enzyme called monoamine oxidase B (MAO B) in the kidneys, heart, lungs, and spleen. The researchers compared PET scans showing MAO B activity in both smokers and nonsmokers. They observed that MAO B activity in the peripheral organs was reduced by one-third to almost one-half in the smokers. While the medical consequences of this finding aren't yet clear, it highlights the fact that many organs throughout the body are affected by the chemical compounds in tobacco smoke.
Subversive Strep Bug Strategy Revealed — NIH researchers have discovered how Streptococcus pyogenes (S. pyogenes), the bacterium responsible for strep throat and "flesh-eating" infections, gains a foothold in the body by subverting a key immune system cell. Using microarray technology, which allows researchers to determine which genes are active within cells, the researchers created a "snapshot" of how all the genes in neutrophils — a type of white blood cell and central player in the body's innate immune system — react following exposure to a variety of bacteria. S. pyogenes stimulated almost 400 neutrophil genes that were not activated by the other kinds of bacteria, and also caused the neutrophils to self-destruct in an uncontrolled fashion. Knowing how this common bug bacterium evades our immune defenses opens exciting new avenues for research into ways to hamper it.
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Promising West Nile Virus Vaccine Protects Monkeys — NIH scientists have created a promising vaccine against West Nile virus by replacing parts of a distantly related virus with proteins from the West Nile virus. This hybrid vaccine protects monkeys from West Nile infection. West Nile virus is spread to people by mosquitoes. It usually produces mild, flu-like symptoms but can cause a deadly encephalitis, or inflammation of the brain. The disease is most severe among the elderly, and has sickened over 8,500 and claimed around 200 lives in the United States in 2003.
Estrogen and Progestin Therapy Increases Risk of Dementia — Healthy postmenopausal women taking combination hormone therapy had twice the rate of dementia as those taking a placebo. The findings are part of the Women's Health Initiative, a large multi-center research study funded by NIH. The women had stopped taking the therapy in July 2002 when participants were found to have an increased risk of breast cancer, heart disease, stroke, and blood clots. These findings further support the conclusion that the risks of taking estrogen plus progestin outweigh the benefits.
Gene for premature aging disorder identified — A team led by NIH scientists found that mutations in a gene called lamin A (LMNA) are responsible for Hutchinson-Gilford progeria syndrome (HGPS), a disorder that causes a dramatic form of premature aging, with death coming on average at age 13. LMNA is a key protein component of the membrane surrounding the cell's nucleus. This discovery may shed light on the general phenomenon of human aging as well as HGPS.
Key to Hepatitis C Virus Persistence Found — NIH-funded scientists discovered how hepatitis C virus (HCV) thwarts the immune system's efforts to eliminate it. Persistent HCV infection is a major cause of liver disease worldwide and is the leading reason for liver transplants in this country. Using cells grown in the laboratory, researchers found that a type of enzyme manufactured by HCV called a protease inhibits an immune system molecule called interferon regulatory factor-3 (IRF-3), which is a key player in fighting viruses. Researchers showed that interfering with the protease restored IRF-3 function. They hope this finding could eventually lead to more effective treatments for liver disease caused by HCV.
Warfarin Prevents Recurrence of Blood Clots — Long-term, low-dose warfarin treatment prevents the recurrence of the blood-clotting disorders deep vein thrombosis (DVT) and pulmonary embolism. A large NIH-funded trial showed so much benefit to the patients taking warfarin that the study was stopped early. These findings show that recurrent blood clots can be avoided using an inexpensive and safe therapy.
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Tamoxifen Reduces Breast Cancer Risk — More than two million women who have a high risk of developing breast cancer would be likely to benefit from taking the breast cancer prevention drug tamoxifen, according to an analysis by NIH researchers. Tamoxifen was approved five years ago as the first drug to prevent breast cancer. It can halve the incidence of breast cancer in women who are most likely to develop the disease. The decision to take tamoxifen will depend on factors such as a woman's age, breast cancer risk factors, and family history.
Protein
From Algae Inhibits Ebola —
A bacterial protein known to reduce the
ability of the human immunodeficiency virus
(HIV) to infect cells was also found to
inhibit the Ebola virus. The protein, cyanovirin-N,
is found in blue-green algae. An NIH-led
team found that the protein inhibits Ebola
infection by interfering with the virus's
ability to enter cells, and can extend the
survival of Ebola-infected mice. This study
provides important insights that may help
in the development of medicines to combat
Ebola infection, which causes severe hemorrhagic
fever and has a high mortality rate.
prepared
by:
Carol Torgan, Ph.D. and Harrison Wein, Ph.D.
Email: weinh@od.nih.gov
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2002
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Mouse Genome Sequenced - The international Mouse Genome Sequencing Consortium, jointly funded by several NIH Institutes along with the Wellcome Trust, published a high quality draft sequence of the mouse genome - the genetic blueprint of a mouse - together with a comparative analysis of the mouse and human genomes. This is the first time scientists have compared the human genome with another mammal's. Because the mouse carries a very similar set of genes, this information will allow scientists to learn more about human genes and the proteins they encode, leading to a better understanding of human disease and improved treatments and cures. The sequence is posted on the Internet, where it is freely available.
Estrogen Plus Progestin Increases Breast Cancer Risk - NIH stopped a major clinical trial of the risks and benefits of combined estrogen and progestin in healthy menopausal women due to an increased risk of invasive breast cancer. The large multi center trial also found increases in coronary heart disease, stroke, and pulmonary embolism in study participants on estrogen plus progestin compared to women taking placebo pills. There were noteworthy benefits of estrogen plus progestin, including fewer cases of hip fractures and colon cancer, but on balance the harm was greater than the benefit.
Smallpox Vaccine Dilution Trial - An NIH-supported clinical trial demonstrated that the existing U.S. supply of smallpox vaccine - 15.4 million doses - could successfully be diluted up to five times and retain its potency, greatly expanding the number of people it could protect from the contagious disease.
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Anthrax Genomes Sequenced - Researchers reported the genetic comparison of two important strains of the anthrax bacterium, an isolate from the 2001 Florida anthrax attack and the well known Ames strain. NIH teamed with the Office of Naval Research, the National Science Foundation, and other agencies to fund the research. Whole genome sequencing and computational methods allowed the researchers to identify differences between the strains for further study. In the future, these techniques can be used to trace the origin of anthrax strains, determine if those strains have been genetically modified, and assess differences in their ability to cause disease or resist antibiotics.
Structure of Last Toxic Anthrax Protein Solved - Researchers supported by NIH solved the three dimensional structure of edema factor (EF), one of the three toxic proteins responsible for the deadly effect of the anthrax bacterium, Bacillus anthracis. EF was the last of the three to have its three-dimensional structure solved, an important step in designing antidotes.
Small RNA, Big Potential - Two separate teams of researchers supported by NIH developed new technology using "small RNAs" to interfere with the activity of specific genes in mammalian cells. The technique holds great potential for studying genes, and is being tested therapeutically to see if it could interfere with viruses like HIV. Small RNAs have recently emerged as a powerful tool to "silence" genes in a process called RNA interference, or RNAi, so that cells cannot make the protein encoded by a specific gene. This was the first time scientists had been able to successfully perform RNAi in mammalian cells. Science magazine named small RNAs its top breakthrough of 2002.
Improved Heart Failure Survival - Survival after a heart failure diagnosis has greatly improved over the past 50 years, according to a study which analyzed data from NIH's landmark Framingham Heart Study (FHS). The risk of dying after being diagnosed with heart failure has dropped by about a third in both men and women. New cases of heart failure dropped by about a third for women during the same period. However, the number of new cases for men remained unchanged. Better prevention and treatments have contributed to overall progress in these rates, but heart failure remains deadly; more than 50 percent of those given a diagnosis of heart failure in the 1990s died within five years.
Detecting Ovarian Cancer - By uniting proteomics and an artificial intelligence program, scientists from NIH and the Food and Drug Administration reported that patterns of proteins found in patients' blood serum may reflect the presence of ovarian cancer, even at early stages. The test can be completed in 30 minutes and uses blood obtained from a finger prick. The emerging concept that an entire pattern of proteins can contain important diagnostic information is potentially applicable to any type of disease.
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Predicting Chemotherapy Response - Patterns of genes that are active in tumor cells can predict whether patients with diffuse large B cell lymphoma (DLBCL) are likely to be cured by chemotherapy, NIH-sponsored scientists reported. The researchers used DNA microarray technology, which allows researchers to determine which genes are active within cells, to analyze thousands of genes in lymphoma biopsy samples and found that the activity of as few as 17 genes could be used to predict patients' response to treatment. DLBCL is the most common type of non Hodgkin's lymphoma in adults, and standard chemotherapy for the disease is effective in only 40 percent of patients. Profiling gene expression in patients' tumors may help clinicians decide which patients are suitable candidates for standard therapy and which should consider other options for treatment.
Malaria Parasite and Mosquito Genomes Completed - The genome sequences of Plasmodium falciparum, the most lethal malaria causing parasite, and Anopheles gambiae, a mosquito that transmits the parasite to humans, were completed by two international research teams partly supported by NIH. These sequences will help scientists gain a deeper understanding of the disease and its transmission.
Malaria Drug Resistance Gene - The malaria causing parasite Plasmodium falciparum became resistant to the anti malarial drug chloroquine through mutations in a single parasite gene named pfcrt, NIH-supported scientists reported. This finding has potentially important implications for malaria treatment and control. Scientists hope to develop methods for diagnosing different variants of P. falciparum infection in patients, so that health officials might then be able to match the most effective drugs for each infection.
Improved Diet and Exercise Delays Type 2 Diabetes - A major clinical trial sponsored by NIH found that people at high risk for type 2 diabetes can delay and possibly prevent the disease by improving their diet and exercising. Diet and exercise leading to weight loss of 5 to 7 percent reduced diabetes incidence by 58 percent in people at high risk. The study found that the oral diabetes drug metformin (Glucophage) also reduces type 2 diabetes risk, although not as effectively as lifestyle changes.
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Traditional Diuretics Better Than Newer Medicines for Treating Hypertension - Less costly diuretics ("water pills") work better than newer drugs to treat hypertension (high blood pressure) and prevent some forms of heart disease, according to a large clinical trial supported by NIH. The study compared a diuretic with a calcium channel blocker, an angiotensin converting enzyme (ACE) inhibitor, and an alpha adrenergic blocker. About 24 million Americans currently take drugs to lower their blood pressure, at an estimated annual cost of about $15.5 billion.
How Light Resets Your Internal Clock - A light sensitive protein in the eye called melanopsin plays a key role in synchronizing daily rhythms to the day/night cycle, according to research supported by NIH. A "clock" within the brain normally governs daily rhythms like sleeping and waking, body temperature and eating. Each day, this internal clock is reset by light, which is somehow detected by the eyes even when the rods and cones, the photoreceptors for vision, are removed. Researchers found that mice lacking a gene for melanopsin did not reset their circadian rhythms normally when exposed to light.
Scientists Glimpse Enzymes at Work Inside Living Cells - Using advanced imaging technology and computational simulations, NIH scientists led a team that glimpsed the action of an enzyme at work within living cells for the first time. RNA polymerase I, which is made up of more than ten protein subunits, "reads" genes from DNA. By analyzing the time it took for the enzyme's many subunits to arrive at a gene and assemble into a functioning complex, researchers discovered that RNA polymerase I is constantly assembling and disassembling itself from a large pool of subunits within the cell. Subunits come together and form a complex each time a gene is read, on average every 1.4 seconds. Once a complete enzyme finishes reading a gene, the subunits quickly disassemble and scatter throughout the cell. Researchers think that the dynamic nature of these cellular machines allows them to assemble as needed so that they can respond quickly to changing conditions in the cell.
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Hypertension and Kidney Disease in African Americans - The largest clinical trial ever conducted in African Americans with kidney disease has concluded that an angiotensin converting enzyme (ACE) inhibitor is superior to drugs in two other classes (calcium channel blocker (amlodipine, Norvasc®) and a beta blocker (metoprolol, Toprol XL®)) for slowing kidney disease due to hypertension. The NIH-funded study also found that very low blood pressure provides no additional benefit for the kidneys than the established standard. Hypertension accounts for 25 percent (87,000) of the nearly 379,000 Americans treated for kidney failure in 2000. Black Americans are six times more likely than whites to develop kidney failure from hypertension, and account for 32 percent (122,000) of all treated patients.
More Surgical Patients Die When Nurse Caseloads Increase - A study of 168 hospitals in Pennsylvania by NIH-funded researchers found that for each additional patient over four in a registered nurse's workload, the risk of death increases by 7% for surgical patients. In hospitals with eight patients per nurse, patients have a 31% greater risk of dying than in hospitals with four patients per nurse. On a national scale, staffing differences like this could result in as many as 20,000 unnecessary deaths each year.
Drug Successfully Delivered to Primate Brainstem - NIH researchers used a technique called convection enhanced delivery (CED), which was developed at NIH, to deliver a tracer molecule to the primate brainstem. They then used magnetic resonance imaging (MRI) to track the tracer's movement throughout the brain. Current drug treatments of brainstem tumors are largely unsuccessful because the drugs often fail to bypass the blood brain barrier, the lining protecting the brainstem. This study showed that researchers can effectively deliver drugs to the primate brainstem and monitor how the drugs spread inside the brain, providing hope for improving treatment of brainstem tumors and other brain diseases.
Key Gene Identified in Cleft Lip and Palate - Scientists supported by NIH discovered the gene that causes Van der Woude syndrome, which causes cleft lip and palate along with other birth defects. The gene, called IRF6, seems to play a key role in the normal formation of the lips, palate, skin, and genitalia. Further study of the gene should provide molecular clues into normal human development and might suggest strategies to prevent birth defects such as cleft lip and palate.
Genetic Defect Responsible for Devastating Brain Disorder - An international team led by NIH researchers used the technique of haplotype mapping - finding blocks of genes that are passed on together through generations - to discover the genetic cause for a rare form of microcephaly, a fatal brain disorder that has stricken infants among the Older Order Amish community in Lancaster County, PA for nine generations. The defect, in a gene called DeoxyNucleotide Carrier (DNC) causes developing cells to lose their ability to transport the building blocks of DNA into the mitochondria, the tiny structures that function as the cells' metabolic power houses. Researchers believe that without this carrying ability, called mitochondrial deoxynucleotide transport, the cell's mitochondria cannot make DNA properly, thus causing the brain of the unborn child to develop abnormally.
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New Approach Shrinks Tumors in Patients with Melanoma - NIH researchers demonstrated a new approach to cancer treatment that replaces a patient's immune system with cancer fighting cells. Thirteen patients with metastatic melanoma (a deadly form of skin cancer) who had not responded to standard treatments were treated with immune cells produced in the laboratory specifically to destroy their tumors. The treatment resulted in at least 50 percent tumor shrinkage in six of the patients, with no growth or appearance of new tumors. Four additional patients had some cancer growths disappear. With further research, scientists hope that this experimental technique, known as adoptive transfer, might be applied to other types of cancer as well as infectious diseases such as AIDS.
Multiple Pets May Decrease Children's Allergy Risk - Children raised in a house with two or more dogs or cats during the first year of life may be less likely to develop allergic diseases than children raised without pets, according to a study supported by NIH.
Complicated Relationship Between Cats and Asthma Risk - A study supported by NIH confirmed previous reports that exposure to cats during infancy can actually protect children against developing asthma, but with one important caveat. When the child's mother has asthma, then a cat in the home actually triples the risk that a child will develop persistent wheezing - an initial indication of asthma - by age five.
Premature Menopause Linked to Adrenal Condition - NIH researchers found that women with spontaneous premature ovarian failure (POF) are at higher risk for developing a serious condition called primary auto immune adrenal insufficiency, or Addison's disease, in which the body attacks the adrenal glands. A test called the adrenal antibody test proved effective in detecting the adrenal condition in women with POF. This early detection is critical, as Addison's disease can be easily treated with medication that replaces the hormones the adrenal glands are not making. By age 40, an estimated one percent of American women develop POF, in which the ovaries stop producing eggs and reproductive hormones well in advance of natural menopause.
Arrhythmia in African Americans Tied to Gene - Scientists supported by NIH identified a gene variant of the cardiac sodium channel gene SCN5A that is associated with arrhythmia - abnormal heart rhythm - in African Americans. The gene variant, which is present in an estimated 4.6 million African Americans, may one day be used to assess the risk of arrhythmia and help prevent it.
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Lipid Abnormalities Linked To Lou Gehrig's Disease - Abnormally high levels of two common lipids (the building blocks of fat) in motor nerve cells may be responsible for the development of amyotrophic lateral sclerosis (ALS), according to NIH investigators. Also called Lou Gehrig's disease, ALS is a progressive, neurological disease affecting as many as 20,000 Americans. ALS leads to paralysis, and is often fatal within five years of diagnosis. This new insight might help scientists develop treatments to slow or arrest the disease's progression.
Clues to Extended Life - A study by NIH investigators found that men who had lower body temperatures, lower blood insulin levels or higher blood levels of a steroid called DHEAS as they aged tended to live longer. These are three well established characteristics of calorie restriction in animals, but the men were not stringently dieting, to the researchers' knowledge. The relationship between these three characteristics and longer life is being further explored.
Excess Body Weight Associated with Increased Risk of Heart Failure - Excess body weight is strongly associated with an increased risk of heart failure, according to a study supported by NIH. Extreme obesity had previously been associated with heart failure, but this new study found that the risk increases continuously with increasing body weight; it is 34 percent higher for people who are overweight and 104 percent higher for those who are obese.
Gene Affects Response to Scary Faces - NIH scientists, using Functional Magnetic Resonance Imaging (fMRI) scans, revealed that people who have one particular version of the human serotonin transporter gene had more activity in the brain structure known as the hub of fear, the amygdala, when they saw pictures of scary faces. This gene's effect on the amygdala may help shape a person's natural temperament.
Ovarian Cancer Linked to Estrogen Replacement Therapy - NIH researchers found that women who used estrogen replacement therapy after menopause were at increased risk for ovarian cancer. No increased risk for ovarian cancer was found in women using estrogen progestin therapy.
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Gene Implicated in Mental Retardation - Researchers supported by NIH discovered a gene on the X chromosome called AGTR2 that, when abnormal, appears to result in male mental retardation. Clues in its structure led the scientists to suggest that AGTR2 may be involved in blood vessel function or development during brain development.
No Association Found Between Oral Contraceptive Use and Breast Cancer - Women who took oral contraceptives at some point in their lives are no more likely to develop breast cancer between the ages of 35 and 64 than other women the same age, according to a study supported by NIH.
Vasectomies and Prostate Cancer - Contrary to some earlier studies, a new study partly funded by NIH found that men who undergo vasectomies are no more likely to develop prostate cancer than men who don't. Prostate cancer is a leading form of cancer among men in the United States, second only to skin cancer.
Eye Drops to Treat Glaucoma - Scientists supported by NIH found that eye drops to reduce pressure inside the eye delayed the onset of primary open angle glaucoma, the most common form of glaucoma and one of the nation's leading causes of vision loss, by more than 50 percent after five years. Between three and six million people in the U.S. have elevated eye pressure and are at increased risk for developing open angle glaucoma.
Molecularly Targeted Drug Slows Metastatic Kidney Cancer - NIH researchers reported that the molecularly targeted drug bevacizumab slowed tumor growth in patients with metastatic renal cell carcinoma, the most common form of kidney cancer in adults.
HIV Infects Cells Sent to Fight It - Scientists at NIH were among a group demonstrating that HIV disables the immune system's response against the virus by disproportionately infecting the very cells designed to fight it. HIV undermines the body's ability to protect against disease by depleting helper T cells, which help direct the immune system's response to microbial invaders. The researchers found that the helper T cells programmed to fight HIV are two to five times more likely to be infected with HIV than helper T cells programmed to take on other pathogens.
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Delaying Teen Drinking - A study funded by NIH showed that two brief family intervention programs are a cost-effective way to delay teen drinking. Between the critical ages of 13 and 16, fewer teens in the two treatment groups started to use alcohol than in the control group.
Single Gene Change Caused Plague - A single gene change played a key role in the evolution of bubonic plague, according to researchers at the Rocky Mountain Laboratories, an NIH research outpost. The new gene allowed a relatively benign bacterium that causes a mild human stomach illness acquired through contaminated food or water to change into the flea borne agent of the "Black Death," which killed one fourth of Europe's population in the 14th century.
Gene for Inherited Gum Condition - An international team of scientists partly supported by NIH identified the first gene that, when altered, triggers hereditary gingival fibromatosis, or HGF, the most common of the rare inherited gum conditions in which gums grow abnormally over the teeth.
Obese Youth and Type 2 Diabetes - Many obese children and adolescents have impaired glucose tolerance, according to research funded by NIH. Impaired glucose tolerance is a known risk factor for type 2 diabetes. The incidence of type 2 diabetes has been rising steadily in children, especially minority adolescents. Glucose tolerance testing may be a practical way to identify obese children at high risk for type 2 diabetes and target them for intensive weight loss treatment.
Eye Drops Treat Lazy Eye - Scientists supported by NIH found that atropine eye drops given once a day to treat moderate amblyopia, or lazy eye, work as well as the standard treatment of patching one eye. Amblyopia is the most common vision problem in children, affecting two or three of every 100 children. This finding could lead to more success in correcting amblyopia by helping children avoid the social stigma of wearing an eye patch and making it easier for parents to help their kids stick to the treatment.
West Nile Virus Vaccine Protects Mice - A research team from NIH and Walter Reed Army Institute of Research have developed a vaccine that protects mice from West Nile virus infection. Researchers hope this accomplishment will help them develop a successful vaccine for humans.
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New Gene for Deafness Found - Mutations in a gene recently identified by NIH researchers called TMC1 can cause nonsyndromic hearing loss. Nonsyndromic hearing loss, which is not accompanied by other inherited problems like changes in skin or hair pigmentation, accounts for approximately two thirds of all hereditary hearing loss. Scientists think the protein encoded by TMC1 plays a role in allowing ear hair cells to respond to sound vibrations, which the cells ultimately convert into electrical signals that travel to the brain.
Hypertension Risk High - Middle aged Americans face a 90 percent chance of developing high blood pressure at some time during the rest of their lives, according to a new study supported by NIH. However, the study also had some good news for Americans: The risk of developing severe high blood pressure has decreased in the past 25 years, due partly to improved treatment.
Leptin Reverses Symptoms of a Rare Form of Diabetes - Scientists at NIH and the University of Texas Southwestern Medical Center have successfully used the hormone leptin to treat patients suffering from lipodystrophy, a rare and difficult to treat disorder that shares some of the characteristics of typical type 2 diabetes.
High Homocysteine Levels Linked to Alzheimer's - People with elevated levels of the amino acid homocysteine in their blood had nearly double the risk of developing Alzheimer's disease (AD), according to a new report from NIH-supported scientists. Blood levels of homocysteine can be reduced by increasing intake of folic acid (or folate) and vitamins B6 and B12, and the therapeutic use of these compounds is now being explored.
First Vaccine Against Deadly Staph Bacteria - NIH scientists and the company Nabi have developed the first successful vaccine against Staphylococcus aureus, a major cause of infection and death among hospital patients. This bacterium causes illnesses ranging from minor skin infections to life threatening diseases such as severe pneumonia, meningitis, and infections of the heart and bloodstream. Recently, researchers have discovered strains of the bacteria that are resistant to the antibiotics used to treat them, making a preventive vaccine critical.
Mentally Stimulating Activities May Reduce Alzheimer's Risk - Scientists supported by NIH found that more frequent participation in mentally stimulating activities like doing crossword puzzles or playing cards is associated with a reduced risk of Alzheimer's disease (AD).
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First Genetically Engineered "Knockout" Pigs - NIH-supported scientists created the world's first "knockout" pigs, which are lacking one of a pair of genes that triggers immune rejection of pig organ transplants in humans. This is an important step for developing genetically engineered pigs that can be used as sources of organs for human transplantation.
Glaucoma Gene Identified - NIH-supported researchers identified a gene associated with primary open angle glaucoma (POAG) which they named optineurin, or OPTN. POAG affects 33 million individuals worldwide and is a leading cause of blindness. Researchers hope to use this finding to develop a way to diagnosis POAG before symptoms appear.
Leading Cause of Gastroenteritis Identified - Investigators led by a researcher on the NIH campus successfully identified a group of Norwalk like viruses as the leading cause of gastroenteritis in Maryland nursing homes. Gastroenteritis is an intestinal illness that can cause vomiting, diarrhea, abdominal cramps, fever, chills and headaches, and can lead to serious complications in the elderly, many of whom are already struggling with other illnesses.
Help for Urinary Incontinence - Researchers supported by NIH showed that rural older women with urinary incontinence (UI) who received a behavioral management intervention in their homes reduced UI severity by 61% compared to the control group, whose UI severity increased by 184%. The intervention consisted of behavioral changes, bladder training, and pelvic muscle exercises with biofeedback. UI is a leading reason for people in rural areas to move to a nursing home; controlling it would lead to a better quality of life and allow people to remain longer in their homes.
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2001
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DASH (Dietary Approaches to Stop Hypertension) Diet Lowered Blood Pressure found that the DASH (Dietary Approaches to Stop Hypertension) diet combined with reduced intake of sodium lowered blood pressure for all groups of people, not just those with high blood pressure. The diet is rich in fruits, vegetables and low-fat dairy foods but low in fats, cholesterol and sweets. Middle-aged Americans face a 90 percent chance of developing high blood pressure at some time during the rest of their lives, according to NIH's National Heart, Lung and Blood Institute (NHLBI). The condition can lead to stroke, heart disease and kidney failure. (Intramural and Extramural)
New, "Hidden" Influenza Virus Protein an international team including NIH scientists found a new, "hidden" influenza virus protein scientists hadn't previously known about that proved toxic to human cells. This new protein may be key to the mystery of what makes some influenza strains so deadly. (Intramural)
How HIV Travels into and out of Cells discovered that HIV, the virus that causes AIDS, must attach to cholesterol-rich regions of a cell's membrane in order to enter and infect the cell. The finding provides a more detailed picture of how HIV travels into and out of cells and points to possible ways to block that travel. (Intramural)
Antibody Designed to Deliver a Toxin to Cancer Cells designed an antibody to recognize and directly deliver a toxin to cancer cells using recombinant DNA technology. This "immunotoxin" induced complete remission in 11 of 13 patients with hairy-cell leukemia that was resistant to previous chemotherapy. The compound, BL22, has been licensed to AlbaPharm, Inc., of Rockville, Md. The company, in collaboration with NCI scientists, will conduct a larger clinical trial that will involve patients with this cancer of the immune system from throughout the country. (Intramural)
Strains of the Bacterium Chlamydia Trachomatis Cause Blindness found a gene encoding a cell-destroying toxin that enables certain strains of the bacterium Chlamydia trachomatis to cause blindness and debilitating genital tract infections. (Intramural)
Treating Depression Can Significantly Reduce Hopsital Stay found that a program to train health care providers to diagnose and treat depression can significantly reduce the time that patients spend clinically depressed for a cost of less than $500 per depressed patient. Over a two-year period, the program reduced the length of patients' depression by well over a month and increased the time they spent employed by about four work weeks. (Extramural)
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Shape of Sperm Determines Fertility found that the shape of a man's sperm appears to be the best way to know if he is fertile. Sperm concentration and motility (how well they move) are also important. However, none of these measures can completely predict fertility. (Intramural and Extramural)
Genetic Basis of Two Rare Disorders Identifiedidentified the genetic basis of two rare disorders, familial cold autoinflammatory syndrome (FCAS), in which affected people develop rashes and other symptoms when exposed to cold air, and Muckle-Wells syndrome (MWS), which causes deafness as well as periodic fevers. Symptoms of both syndromes are caused by an altered immune system protein named cryopyrin. The scientists believe that cryopyrin is part of the innate immune system — an evolutionarily ancient defense system that is present in plants and other lower organisms. The identification of the gene underlying FCAS and MWS will help researchers understand the origin of these rare conditions and may point them in new directions for treatments. (Extramural)
Nutrient Combination Lowers Risk of Age-related Macular Degeneration showed that people at high risk of developing advanced stages of age-related macular degeneration (AMD) significantly lowered that risk by taking a high-dose combination of zinc and the antioxidants vitamin C, vitamin E and beta-carotene. These nutrients are the first effective treatment to slow the progression of AMD, a leading cause of visual impairment and blindness in Americans 65 years of age and older. (Intramural and Extramural)
Surgical Risks in Emphysema Patients established scientifically-based selection criteria for identifying emphysema patients that would receive little benefit from a new treatment called lung volume reduction surgery (LVRS) and are at high risk of death from the procedure. Emphysema is a disabling condition in which the fine architecture of the lung is destroyed, leading to large holes in the lung, obstruction of the airways, trapping of air, and difficulty exchanging oxygen. Typically caused by cigarettes, the disease affects approximately 2 million Americans and kills more than 17,000 people in the U.S. each year. This research will let doctors identify which patients would do better receiving medical treatments such as medications, exercise rehabilitation, and nutritional supplementation rather than LVRS. (Extramural)
Cell Receptor Discovered discovered the receptor on the outside of cells that protective antigen (PA), one of the three toxic proteins produced by anthrax bacteria, uses to get inside. Part of the receptor was used by the scientists to overwhelm the toxins and protect cells in a culture from being killed by anthrax toxins. This approach might eventually lead to a similar therapy in people. The receptor can also now be used as a tool to find potential medicines that block anthrax toxin from binding to it. (Extramural)
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Proteins Crystal Structure Solved solved the crystal structure of one of the three toxic proteins produced by anthrax bacteria, lethal factor (LF), and discovered how it interacts with the specific proteins it destroys inside the cell. LF kills macrophages, a key cell of the human immune system. This structural information can now be used to look for therapeutic agents to block LF's deadly activity. (Intramural and Extramural)
Anthrax Toxin Inhibitor designed an inhibitor of anthrax toxin by looking for random peptides (portions of proteins) that blocked the three anthrax toxic proteins from binding to each other. The scientists tested the inhibitor in rats that are highly sensitive to anthrax toxin and found that an injection could completely protect the rats from anthrax toxin without any noticeable side effects. This, or another inhibitor developed with a similar approach, might now be developed as a medicine to combat anthrax toxin when antibiotic treatment is too late. (Extramural)
Streptococcus pneumoniae Sequenced sequenced the genome of a virulent strain of Streptococcus pneumoniae. S. pneumoniae kills millions of people, especially the elderly, worldwide each year with pneumonia, blood stream infections and meningitis, and many strains have become resistant to common antibiotics. The examination of this sequence and comparison with other strains should provide targets for the development of new drugs and vaccines. (Extramural)
Key to Strain's Virulencefound that a small change in the genetic sequence of one of influenza virus's 10 genes (known as PB2) was key to one strain's virulence, a significant advance toward understanding the molecular basis of why some strains kill so many people while others are relatively benign. The influenza virus constantly changes, and new strains emerge each year, thus requiring new vaccines each year. In order to prepare effective vaccines or design more effective antiviral drugs, it is critical to understand what makes some strains of the virus so deadly. (Extramural)
Porphyromonas gingivalis Sequenced sequenced the genome of Porphyromonas gingivalis, a bacterium thought to play a major role in gum disease. It is the first oral disease-causing microbe to be completely sequenced. This data should help researchers develop better ways to prevent or eradicate gum disease. (Extramural)
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COMT Increases Risk of Schizophrenia deciphered how a variant form of a gene called COMT affects the prefrontal cortex of the brain to slightly increase the risk for schizophrenia. This is one of the first studies to show how a specific gene contributes to a mental illness. (Intramural and Extramural)
Artificial Neural Network developed a method that, by combining microarray (or gene chip) technology with a form of artificial intelligence called an artificial neural network (ANN), can tell the difference between four childhood cancers that often look alike. Using traditional diagnostic technologies, the tumors caused by these four unique types of cancer — neuroblastoma, rhabdomyosarcoma, non-Hodgkin's lymphoma (Burkitt's lymphoma) and Ewing's sarcoma — are difficult to tell apart. Gene chip technology was used to analyze the pattern of activity of thousands of genes at once while an ANN "learned" how to recognize the genetic patterns produced by each type of cancer. As a result of this work, the different cancers can now be classified with much greater accuracy. An accurate diagnosis can be critical for a child's survival, as the treatments for these tumors are quite different. This study should also help lead to the discovery of genes that are altered in these tumors, and ultimately to the development of effective new treatments. (Intramural)
Anti-cancer Drug Targets Chronic Myelogenous Leukemia funded the lion's share of the basic research that eventually led to the discovery and development by the drug company Novartis of a new drug known as Gleevec. It is the first anti-cancer drug specifically developed to target a molecular problem that causes a particular type of cancer, in this case, chronic myelogenous leukemia (CML). In this disease, too many white blood cells are made in the bone marrow. In a clinical trial, Gleevec restored normal blood counts in 53 out of 54 patients with CML. Side effects thus far seem very mild. NCI and Novartis are conducting clinical trials to determine the long-term effectiveness of this drug. (Intramural and Extramural)
Mouse Embryonic Stem Cells Produce Insulin turned mouse embryonic stem cells into cells that produced insulin and showed other characteristics of pancreatic islet cells. Diabetes, which affects 16 million people in the US, results from abnormal function of pancreatic islets. This research may be an important step toward a diabetes treatment, as stem cells may enable doctors to overcome the problems of availability and tissue rejection seen in transplants. (Intramural and Extramural)
Streptococcus pyogenes Sequenced completed sequencing the 1.8 million DNA base pairs of Streptococcus pyogenes, a bacterium that causes a wide variety of human diseases including strep throat, scarlet fever, the skin infection impetigo, pneumonia, acute kidney inflammation, toxic shock syndrome, blood "poisoning," acute rheumatic fever, rheumatic heart disease, and the flesh-eating disease known as necrotizing fasciitis. Having this bacterium's genome will help in the development of new prevention and treatment attempts such as creating vaccines. (Extramural)
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Develop Genetic Test for Breast Cancer developed a new genetic test that can distinguish between two types of hereditary breast cancer — caused by BRCA1 and BRCA2 mutations — and sporadic breast cancer. The new approach, using microarray technology to analyze the activity of over 5300 genes at once, was developed by a team of international researchers that included NIH scientists. This advance should ultimately help physicians quickly and accurately diagnose the cause of a woman's breast cancer and guide decisions about the most effective treatment. (Intramural)
Discovery of Gene for Sweet Taste Receptors discovered the gene that codes for sweet taste receptors in the mouth. NIDCD scientists were among three separate research groups reporting the discovery of this gene. Taste receptor cells contain molecular receptors that respond to chemicals in food and drink to create the sensation of taste. The discovery of this receptor may help in the development of better artificial sweeteners, and in learning why some people seem to have more of a sweet tooth than others. Taste defects are also associated with many health problems such as obesity, diabetes, hypertension and malnutrition. (Intramural and Extramural)
Vaccine for Typhoid Feverdeveloped and tested the first vaccine capable of protecting children ages 2 to 5 against typhoid fever. Seemingly the most effective typhoid vaccine ever developed, it is also virtually free of side effects. Spread by fecal contamination of drinking water or food, or by person to person contact, typhoid fever is common in developing countries without adequate sewage and sanitation. Symptoms include fever, stomach pains, weight loss, loss of appetite, delirium, severe diarrhea (in children), and constipation (in adults). About 16 million people worldwide develop typhoid each year, and 600,000 die from it. (Intramural and Extramural)
Cocaine Addiction is Chronicfound, using rats, that craving for cocaine seems to increase, rather than decrease, in the days and months after drug use has stopped. This phenomenon helps explain why cocaine addiction is a chronic, relapsing disease. (Intramural)
Losing Weight Lowers Risk of Diabetes–found that people at high risk for type 2 diabetes can sharply lower their chances of getting the disease by losing weight (5 percent to 7 percent of their body weight) and by getting 30 minutes of walking or other moderate exercise every day. (Extramural)
–found evidence that human heart muscle cells do regenerate to some degree after a heart attack. Scientists previously assumed that when the heart is damaged — such as after a heart attack — heart muscle cells do not regenerate and the damage is permanent. This finding opens up the possibility of repairing the heart after a heart attack. (Extramural)
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Adult Stem Cells Become Heart Cells–demonstrated that adult stem cells isolated from mouse bone marrow could become functioning heart muscle cells when injected into a damaged mouse heart. The new cells at least partially restore the heart's ability to pump blood. (Intramural and Extramural)
Genome of Deadly E. coli O157:H7 Sequenced–completed sequencing the genome of the deadly E. coli O157:H7, a bacterium which is becoming a worldwide public health threat through contaminated ground beef, milk, fruits and vegetables. Comparing the sequence of this strain with that of harmless strains of the bacterium will help scientists understand why some forms cause disease, and help in finding ways to detect and prevent harmful strains from spreading and causing disease. (Extramural)
Rhesus Monkey Genetically Modified–successfully introduced a new gene into rhesus monkeys. This is the first time that a primate, the group of mammals that includes human beings, has been genetically modified. The accomplishment could lead to the development of new, more relevant animal models that provide insights into a variety of human disorders, including cancer, cystic fibrosis and Alzheimer's disease. (Extramural)
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2000
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Working Draft of the Human Genome–assembled a working draft of the sequence of the entire human genome, the genetic blueprint for a human being. This draft contains overlapping fragments of DNA sequence–the order of the four chemical bases that make up DNA–covering approximately 90 percent of the genome, with some gaps and ambiguities. Sequence information from this public project has been continuously, immediately and freely available with no restrictions on its use or redistribution. Already, many tens of thousands of genes have been identified and dozens of disease genes pinpointed by access to the working draft. The international Human Genome Sequencing consortium responsible for this working draft includes scientists at 16 institutions in the United States, France, Germany, Japan, China, and Great Britain. The project is funded by grants from government agencies and public charities in these various countries. (Intramural and Extramural)
Stem Cell Transplants Reverse Kidney Cancer–reversed advanced kidney cancer in some patients using blood stem cell transplants from a healthy sibling. Advanced kidney cancer is often resistant to therapy and is usually fatal in less than a year. Of 19 patients who did not respond to prior therapy, three had total regression of the disease after the stem cell transplantation and seven had partial regression. Although this was a small study with a relatively short follow-up, the high response rate is very encouraging. (Intramural)
Identified a Gene Associated with Primary Pulmonary Hypertension–identified a gene, BMPR2, associated with primary pulmonary hypertension (PPH), a rare but devastating lung disease that causes an uncontrolled build-up of cells in blood vessels in the lungs. The resulting blockages in the blood vessels force the heart to pump harder and increase blood pressure. With current treatments, life expectancy for people with PPH is on average less than three years. Now that a gene has been identified, scientists can focus on learning how it works so that they can better devise treatments. (Extramural)
Identified Ebola Virus Protein–identified the protein in Ebola virus which causes the massive internal bleeding that kills people with the disease. The protein destroys endothelial cellsthe cells that line blood vessel walls. Ebola virus, depending on the strain, can kill up to 90 percent of the people it infects. Now that scientists have found the responsible protein and gained insight into how it works, they can focus on new drugs or vaccines to combat its deadly effects. (Intramural and Extramural)
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Oxidative Stress and Aging–found that treating the worm C. elegans with antioxidants increased the worms' life spans by approximately 44%. Although these worms are far from human, these experiments further a growing body of evidence supporting the theory that oxidative stress plays a major role in aging. (Extramural)
Found Blood Vessels of Colon Cancers and Normal Colon Tissue are Different–found differences in the expression of nearly 80 different genes between the blood vessels of human colon cancers and normal colon tissue. This accomplishment gives scientists a host of new targets in their attempts to shut off the growth of the blood vessels that growing tumors in the colon need to survive. (Extramural)
Identified a Gene that Makes Malaria Resistant to Chloroquine–identified a gene that makes the malaria parasite resistant to chloroquine, the former mainstay, low-cost anti-malarial drug. Malaria strikes 300 to 500 million people each year, and kills 1 million. Chloroquine has been losing its effectiveness against the parasite, and no alternative approaching its affordability and effectiveness has yet emerged. This gene discovery will help scientists explore ways to overcome the parasite's resistance to chloroquine, and also help them detect chloroquine-resistant parasites in people living in areas where malaria is endemic. (Intramural and Extramural)
Discovered Pore-like Holes in the Membranes of Malaria Infected Red Blood Cells–discovered pore-like holes in the membranes of red blood cells infected by the malaria parasite. Made by the parasites, these channels allow them to get extra nutrients from outside the cells to support their explosive growth and multiplication within. Searching for drugs that block this channel may lead to new ways to combat this parasite. (Intramural)
Sequenced Genome of the Bacteria that Causes Cholera–determined the complete genomic sequence of the bacteria that causes cholera. Cholera causes severe diarrhea, killing nearly 8,500 people worldwide last year and striking another 223,000. This accomplishment should speed the development of vaccines and drugs to fight the disease. (Extramural)
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Found That the Patterns of Genes Expressed Could Predict Melanomas Progression–identified several genes that can be used to predict particularly aggressive malignant melanomas. Scientists used gene chips to look at the activity of thousands of genes in 31 different melanomas and seven normal tissue samples. They found that the patterns of genes expressed could predict the melanomas' progression. This discovery will help doctors separate tumors that look the same under the microscope into clinically significant groups. It will also help scientists focus in on new targets for drugs to combat the disease. (Intramural and Extramural)
Identified the Protein RhoC–identified a protein called RhoC that can cause metastasis in melanoma cells. Metastasis, the spread of cancer cells to other parts of the body, is perhaps the biggest threat to survival in patients with solid tumors. (Extramural)
Identified Possible New Targets for TB Treatment–identified several genes in a bacterium that allow it to persist as a chronic tuberculosis (TB)-like infection in leopard frogs. These bacteria are related to that causing TB in humans, and follow the same pattern of infection as TB when they infect frogs. Two of the genes with very similar counterparts in TB bacteria were found to be necessary for the bacterial infection to persist. They may, therefore, be good targets for new drugs against TB, which kills an estimated 2 million people each year and persists in approximately one-third of the world's population. (Extramural)
Completed Sequencing the Genome Drosophila melanogaster–completed sequencing the genome of the fruitfly Drosophila melanogaster, one of the most intensely studied creatures in biology. Fruitflies are used to study a host of basic biological questions related to aging, development, learning, memory and more. This milestone, which proved the speed and value of a new technique called whole-genome shotgun sequencing, was accomplished through the combined effort of public and private laboratories. (Extramural)
Demonstrated Two Subtypes of Diffuse Large B-cell Lymphoma–used microarray technology to show that there are actually two subtypes of diffuse large B-cell lymphoma (DLBCL). Until this work, which used the new technology to look at approximately 1.8 million measurements of gene expression from 96 different samples, scientists had been unable to account for the fact that 40% of DLBCL patients respond well to therapy, yet the remainder succumb to the disease. Microarray technology allows scientists to look at how thousands of genes are expressed at once, a scale previously unimaginable. This is just the first demonstration of a technique that promises to revolutionize cancer diagnosis as well as many other areas of scientific research. (Intramural and Extramural)
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Genetically Modified Hot Pepper Tolerant Mice–found that mice genetically engineered to remove the receptor that responds to hot peppers developed an amazing tolerance for hot sauce, and surprisingly also showed less sensitivity to other types of pain. The mice tolerated heat better, and their cells weren't as affected by an acidic solution designed to mimic internal inflammation. This hot pepper receptor is an important new potential target molecule for developing drugs for pain relief. (Extramural)
Showed that the Human Brain is Constantly Growing and Changing Well into Puberty–created the most detailed maps yet of the developing human brain, using high-resolution three-dimensional magnetic resonance imaging to show that the human brain is constantly growing and changing well into puberty. By repeatedly scanning the brains of children three to 15 years old over a four year period, scientists were able to see huge growth between the ages of three and six in the area of the brain that helps sustain attention and regulates the organization and planning of new actions. Between six and 13, the highest growth rates were in the region specialized for language. Somewhere between 11 and 15, growth in this region slows down, reflecting the difficulty most people have in learning new languages after the age of 12. (Intramural and Extramural)
Discovered a Mutation that Causes Hypertension–discovered a mutation that causes one form of early-onset hypertension, a condition that is particularly dangerous during pregnancy. Hypertension during pregnancy raises the risk of pre-eclampsia, which can be fatal for mother and fetus. Identifying women at risk for the condition can help doctors intervene early to prevent it. (Extramural)
Identified a Protein that Predicts the Risk of a Woman Having a Heart Attack–identified a protein, C-reactive protein, that predicts the risk of a woman having a heart attack better than cholesterol. It can be detected with a simple, inexpensive blood test. People who know they are at risk for heart attacks can take aggressive steps to try to prevent them. (Extramural)
Oxygen Can Cut the Rate of Wound Infections in Half–demonstrated that a simple and inexpensive change in basic surgical procedures–giving patients more oxygen during and immediately after surgery–can cut the rate of wound infections in half, thus saving millions of dollars in hospital costs by helping to prevent post-surgical wound infection, nausea and vomiting. (Extramural)
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1995-1999
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Completed Sequence of Human Chromosome 22–completed first sequence of a human chromosome, chromosome 22. Genes on chromosome 22 have been implicated in immune system function, congenital heart disease, schizophrenia, mental retardation, birth defects, and several cancers, including leukemia. The 33.4 million nucleotides that make up chromosome 22 comprise the longest continuous stretch of DNA ever deciphered. (Extramural)
Strategy for Preventing Mother to Infant HIV Virus Transmission–demonstrated an affordable and practical strategy for preventing transmission of the HIV virus from mother to infant. A single oral dose of the antiretroviral drug nevirapine given to an HIV-infected woman in labor and another to her baby within three days of birth reduced the transmission of virus by half compared with a similar short course of AZT. If used in developing countries, this treatment might prevent some 300,000 to 400,000 newborns per year from becoming infected and eventually developing AIDS. (Extramural)
Cesarean Sections Reduce Risk of HIV Transmission–the risk of pregnant women infected with HIV transmitting the virus to their infants was reduced by about 50 percent if they delivered by cesarean section before they went into labor and before their membranes ruptured. (Intramural and Extramural)
Salmonella "Master" Gene–found "master" gene that makes Salmonella a deadly bacteria. Without the gene for an enzyme called Dam, Salmonella bacteria not only did not kill the mice they were injected into, but also served as a vaccine against future infection by deadly Salmonella. Because Dam is found in many other dangerous bacteria, this discovery opens possibilities for a whole new generation of antibiotics and vaccines against virulent bacteria. (Extramural)
Sleep Deprivation and the Body –first demonstration that sleep deprivation may have a harmful effect on the body, not just the mind. The bodies of men whose sleep was severely restricted for one week had characteristics that mimicked some of the hallmarks of aging, including lowered glucose tolerance, which is a risk factor for diabetes, obesity and hypertension; and raised cortisol levels, a condition thought to be involved in insulin resistance and memory problems. The negative effects of sleep deprivation could be corrected by normal sleep. (Extramural)
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Gene Map of Major Histocompatibility Complex–completed the sequence and gene map of a region essential to the immune system, the human major histocompatibility complex (MHC). The MHC is associated with more diseases than any other region of the human genome. One group of proteins encoded by the genes of the MHC are the markers of self that appear on almost all body cells and thus play a critical role in rejection of organ transplants as well as in autoimmune diseases like rheumatoid arthritis. A second group of proteins which the MHC codes for helps fight foreign invaders like viruses and bacteria. (Extramural)
Genetic Map of Malaria Parasite–completed the first high-resolution genetic map of Plasmodium falciparum, the deadliest malaria parasite. This accomplishment will help scientists find new targets for improved diagnostic tools, therapies and vaccines. Each year P. falciparum malaria affects up to 500 million people worldwide and kills more than 2 million, primarily young children in sub-Saharan Africa. (Intramural and Extramural)
Women with Preeclampsia–women with preeclampsia, a potentially fatal complication of pregnancy, were found to have an imbalance of two key chemical compounds that control blood pressure, prostacyclin and thromboxane, months before the symptoms of preeclampsia appeared. The discovery suggests strategies for designing new treatments for the condition. There is currently no cure for preeclampsia. Characterized by high blood pressure, excessive weight gain, headaches and other symptoms, preeclampsia may progress to convulsions and bring about a variety of other birth complications. About 5 percent of first-time mothers develop preeclampsia. (Intramural)
Link Between Mothers with Hypothyroidism and Lower IQs of Children–children born to mothers with untreated hypothyroidism during pregnancy were found to score lower on IQ tests than children of healthy mothers, suggesting that early detection and treatment of hypothyroidism in pregnant women may be a critical part of prenatal care. Hypothyroidism is a condition in which the thyroid gland does not produce enough hormone, leading to fatigue and a lack of energy; coarse, brittle hair; thick, coarse skin; and a lowering of the metabolic rate. About 3% of women of childbearing age develop the condition, but hypothyroidism often goes undetected because the women do not yet have obvious physical signs or symptoms. (Extramural)
Transgenic Mice with Enhanced Memory–created transgenic mice that showed enhanced performance in six different memory tests. Scientists achieved the result by getting adult mice to express a juvenile form of one brain receptor. This research is a major advance in understanding memory and learning. (Extramural)
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A Single Gene Affects Mice Sociability–a single gene was found to make laboratory mice more friendly and affectionate toward their cage mates. Receptors for the hormone vasopressin were taken from the sociable prairie vole and put into laboratory mice. When the mice were injected with vasopressin, they became more affectionate. This study is the first to show that even complex social behavior can be radically affected by a single gene. (Extramural)
Back to Sleep Campaign Reduces Rate of Sudden Infant Death Syndrome–between 1992 and 1996, the rate of Sudden Infant Death Syndrome (SIDS) dropped by 38 percent. Much of that drop was likely due to a 66 percent decrease during the same period in the number of U.S. infants being placed to sleep on their stomachs. The Back to Sleep Campaign, a national campaign that encourages infants to be placed to sleep on their backs, was launched by NICHD in partnership with several other organizations in 1994. (Intramural and Extramural)
New Strategy for Treating Cancer–developed promising new strategy for treating cancer in a mouse model. Rather than directly attacking cancerous cells, which can develop resistance to chemotherapeutic drugs, researchers starved them by targeting drugs to the new blood vessels that nourish the tumors. This method spares other tissues in the body, and proved to be effective in mice. Human trials are currently underway. (Extramural)
Reseting the Body's Biological Rhythm–demonstrated that the human circadian clock can be reset by applying light to the back of the knees. Scientists had previously assumed that the body's internal timekeeping clock was set exclusively by light reaching the eyes. This discovery was a surprising step in understanding how the body's biological rhythm is set. (Extramural)
Nicotine Addiction Molecule Identified–identified a particular molecule involved in nicotine addiction, a subunit of a known nicotine receptor. Mice lacking this molecule don't self-administer nicotine like normal mice. This discovery uncovers a potential target for developing medications to treat nicotine addiction. (Extramural)
Lifestyle Modifications Can Control High Blood Pressure–losing weight and cutting down on salt were found to lessen and sometimes eliminate the need for blood pressure-lowering medications in elderly people with high blood pressure. The study showed that lifestyle modifications can be used to control high blood pressure. About 50 million Americans have high blood pressure, and it is one of the most important risk factors for cardiovascular disease. (Extramural)
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Vitamin E Supplements Reduce Prostate Cancer Incidence–vitamin E supplements were found to substantially reduce the incidence of prostate cancer and death in male smokers. Men of 50-69 years old who took a moderate dose of vitamin E daily for five to eight years had 32 percent fewer diagnoses of prostate cancer and 41 percent fewer prostate cancer deaths compared to men who did not receive the vitamin. (Extramural)
Safe Screening for Down Syndrome–developed a safe and effective method of screening for Down syndrome in the first trimester of pregnancy. Previous methods of screening for fetuses with Down syndrome during the first trimester carried significant risks of miscarriage. (Extramural)
Edible Vaccine Found Effective–showed for the first time that an edible vaccine can safely trigger significant immune responses in people. Volunteers developed the responses after eating bite-sized pieces of raw potato that had been genetically engineered to produce part of the toxin secreted by the Escherichia coli bacterium, which can cause diarrhea. This accomplishment is a significant milestone on the road to developing inexpensive vaccination programs, and is of particular importance to developing countries. (Extramural)
Mutations in the Gene MYO15 Can Cause Deafness–identified mutations in a newly discovered gene, MYO15, that can cause one of the most common forms of inherited deafness, nonsyndromic recessive deafness. Research on a similar protein in mice leads scientists to speculate that MYO15 plays an important role in the functioning of the inner ear hair cells. (Intramural and Extramural)
Bacterium that Causes Syphilis Sequenced–sequenced the complete genome of Treponema pallidum, the bacterium that causes syphilis. This accomplishment will help advance the development of vaccines and diagnostic tests. Syphilis is a sexually transmitted disease that can cause serious heart abnormalities, mental disorders, blindness, other neurologic problems, and death. (Extramural)
HIV Surface Protein Resolved–resolved the three-dimensional structure of gp120, the surface protein that the HIV virus uses to attach itself to immune system cells. The discovery allows scientists to identify important target sites for developing new drugs and vaccines. (Extramural)
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Tamoxifen Lowers Risk of Breat Cancer–showed that women at high risk of developing breast cancer who took tamoxifen had 49% fewer cases of breast cancer than those who didn't. Tamoxifen was hailed as the first drug to prevent breast cancer in women at high-risk for the disease. Because of the incidence of side effects from the drug, it may be most beneficial for women at high risk for breast cancer. (Extramural)
New Insights into Chlamydial Infections–completed the sequence of the Chlamydia trachomatis genome, providing new insights into chlamydial infections and ways to combat them. Chlamydia is the most prevalent bacterial sexually transmitted disease in the United States, leading to infertility, tubal pregnancy and chronic pelvic pain. The same bacterium can also infect the eye, causing trachoma, the leading cause of preventable blindness in the developing world. (Extramural)
Sequenced the Genome of Caenorhabditis elegans–sequenced the complete genome of the tiny roundworm Caenorhabditis elegans in 1998, representing the first time that scientists have spelled out the genetic instructions for a complete animal that, like humans, has a nervous system, digests food, and has a sexual reproductive system. (Extramural)
Three-Dimensional Structure of Tubulin Solved–three-dimensional structure of the tubulin molecule solved by electron crystallography. Tubulin, a major part of every cell's skeleton, is the target of taxol, a potent anti-cancer drug. Knowing the three-dimensional structure of tubulin will aid attempts to find and design new anti-cancer drugs. (Extramural)
Identified a Gene that Causes Parkinson's–identified a defective gene that causes some inherited cases of Parkinson's disease. The discovery provides clues to how nerve cells are killed in the disease and suggests possible new therapeutic strategies. Parkinson's disease, characterized by trembling and a loss of muscular control, afflicts about 500,000 people in the United States. (Intramural and Extramural)
Identified Gene Which Controls Circadian Rhythms–identified the Clock gene, which controls circadian rhythm in mammals. Biological clocks are disturbed in problems ranging from jet lag to manic depressive illness. (Extramural)
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Basic Aspects of Brain Organization Can Change–discovered that people blind from birth actually rewire their brains to use the primary "visual" areas of the cerebral cortex to read Braille. This discovery shows that even basic aspects of brain organization can change, at least in the very young. (Intramural and Extramural)
Applied Functional Magnetic Resonance Imaging–pinpointed the area of the brain involved in seeing and storing working, short-term memories of a face or a series of letters. A time course of brain activity was observed for the first time with high resolution using an advanced technology called functional magnetic resonance imaging (fMRI). (Extramural)
Laser Capture Microdissection (LCM) Technique–developed the laser capture microdissection (LCM) technique, which allows scientists for the first time to pinpoint and remove targets as small as one cell from a sample without damaging either the target or the surrounding tissue. Earlier extraction methods either fragmented the sampled cells or destroyed the surrounding tissues. The precision of LCM is invaluable in analyzing cells from patients with diseases such as cancer. (Intramural)
New Target for Anti-Malarial Therapies–identified the protein that causes red blood cells to clump together and block blood flow during an infection by the malaria parasite. This discovery provides a new target for anti-malarial therapies. Malaria is one of the most serious and complex health problems facing humanity in the 20th century. Worldwide, between 300 and 500 million people are infected and between 1.5 and 2.7 million die of malaria each year. (Intramural and Extramural)
Discovered a Gene Involved in Age-Related Macular Degeneration–discovered a gene, STGD1, involved in age-related macular degeneration, the leading cause of blindness in older Americans. The scientists found mutations in this gene in 16 percent of the 167 cases of age-related macular degeneration they studied. (Intramural and Extramural)
Glaucoma Genes Identified–genes for two different forms of glaucoma, juvenile angle glaucoma and primary congenital glaucoma, identified. These discoveries advance the understanding of the causes of glaucoma and may lead to early detection and improved treatments. Glaucoma, a condition where pressure builds up in the eye and damages the optic nerve, blinds almost 12,000 people in the United States each year, and accounts for 15% of blindness worldwide. (Extramural)–complete sequence of Escherichia coli genome published. E. coli is a laboratory workhorse with a long and rich history, and was the largest and most complex bacterial genome to be completely sequenced at the time (1997). This accomplishment gives researchers a powerful new tool for understanding fundamental questions of biological evolution and function. (Extramural)
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Low Fat Diet Reduces Blood Pressure–nationwide "Dietary Approaches to Stop Hypertension" (DASH) trial showed that a diet low in fat and high in vegetable, fruit, and low fat dairy foods significantly and quickly lowered blood pressure. A DASH diet could reduce some people's need for medication to control their hypertension. High blood pressure affects about one in four Americans, and can lead to coronary heart disease and strokes. (Extramural)
Werner's Syndrome Gene Identified–identified the gene which causes Werner's syndrome, a rare and ultimately fatal genetic disease with symptoms resembling premature aging. People with Werner's syndrome get gray hair, lose elasticity in their skin, and develop cataracts while in their twenties, and most die before age 50. They can also develop several age-related diseases at a young age, including atherosclerosis, cancer, diabetes, and osteoporosis. Scientists think that the genetic defect causing Werner's syndrome allows DNA damage to accumulate, thus leading to the premature development of age-related diseases. This discovery is important not only for understanding the biological processes involved in aging, but also in understanding the array of rare tumors and other age-related diseases associated with Werner's syndrome. (Extramural)
New Strategies for Combating AIDS–identified two key molecules on the surface of immune cells that the HIV-1 virus needs in order to enter immune cells and begin its attack. People with two mutant copies of one of these molecules were found to resist HIV infection. These findings suggest new strategies for combating AIDS. (Intramural and Extramural)
Mutated Gene Predisposes Men to Prostate Cancer–identified a gene, HPC1, that when mutated predisposes men to prostate cancer. The researchers estimate that 1 in 500 men have an altered version of this gene, and that it is responsible for at least a third of familial prostate cancer. (Extramural)
Biological Link Between Cigarette Smoking and Lung Cancer Found–found the first direct biological link between cigarette smoking and lung cancer. DNA mutations caused by the cigarette smoke byproduct benzo[a]pyrene in the tumor suppressor gene p53 were found to be the same as those found in lung cancer cells. Scientists have long associated cigarette smoking with lung cancer, but this discovery uncovers the molecular basis for how smoking leads to lung cancer. (Extramural)
Inherited Epilepsy Gene–identified mutations in a gene that lead to an inherited form of epilepsy. While inherited epilepsy is rare, understanding how the defects in this gene lead to epilepsy may give scientists insight into how epilepsy develops in other people. Epilepsy is estimated to affect more than 2.5 million Americans, about 1 percent of the population. (Extramural)
Completed DNA Sequence of Brewer's Yeast–DNA sequence completed of the brewer's yeast Saccharomyces cerevisiae, a simple model system for understanding complex problems in cell biology. This was the largest genome to be completely sequenced at the time (1996), and will aid greatly in the analysis of yeast genes and their products. (Extramural)
Cerebellum and Sensory Input–discovered that the cerebellum is involved in perceiving sensory input, challenging the prevailing view that it serves only in controlling muscles. (Extramural)
Protease Inhibitors Prolong Lives of AIDS Patients–a new class of anti-HIV drugs called protease inhibitors shown to help significantly prolong the lives of AIDS patients. NIH-supported basic research paved the way for the development of this new class of drugs, from discovering the HIV protease enzyme to determining its three-dimensional structure in order to design drugs to block its action, to conducting drug-screening efforts and clinical trials. (Extramural)
Drug t-PA1 Approved After a 5-Year Clinical Trial Funded by NINDS–a 5-year clinical trial funded by NINDS led to a rapid decision by the Food and Drug Administration (FDA) to approve the clot-dissolving drug t-PA1 for the emergency treatment of stroke. Those treated with t-PA1 within 3 hours of their initial stroke symptoms were at least 30 percent more likely than untreated patients to recover from their stroke with little or no disability. (Extramural)
Progestin Counteract Estrogen's Deleterious Effects–"PEPI" trial changed the course of hormone replacement therapy (HRT) for postmenopausal women. The study found that including progestin in HRT substantially reduced the increased risk of cancer of the endometrium (lining of the uterus) associated with taking estrogen alone. HRT is used to counteract the symptoms many women experience as their body adjusts to the fall in their body's estrogen levels during menopause: hot flashes and flushes, sweats, sleep disturbances and an increased rate of bone loss that may result in osteoporosis and bone fractures. Progestin seems to counteract estrogen's deleterious effect on the uterus by preventing overgrowth of the endometrial lining. (Intramural and Extramural)
Cancer Mortality Rate Falls–the cancer mortality rate fell nearly 3 percent between 1991 and 1995, the first sustained decline since national record keeping started in the 1930's.
Robust Telomerase Activity Detected in Human Tumors–an "immortality" enzyme, telomerase, was found to be active in many types of cancers, but is not generally detectable in cells that age and die normally. Telomerase is thought to reverse the cell's aging process. Bestowing immortality on the cell, however, leads to the uncontrolled growth that characterizes tumors. This robust telomerase activity has been detected in 80-90% of human tumors, providing important insight into the events that lead to cancer. (Extramural)
Zidovudine (AZT) Found to Reduce the Risk of HIV Transmission From Mother to Infant–treating HIV-infected pregnant women and their newborns with zidovudine (AZT) was found to reduce the risk of HIV transmission from mother to infant by approximately two thirds. Maternal-infant transmission is the primary means by which young children become infected with HIV. This finding opened the door to a major preventive effort. (Extramural)
"Obese" Gene Discovered–discovered the obese gene, which causes gross obesity in mice when not produced properly, along with its human counterpart. The protein for which obese codes, leptin, is now the subject of clinical trials attempting to combat human obesity. (Extramural)
Gene Involved in Usher Syndrome Discovered–first discovery of a gene involved in Usher syndrome (US), the most common cause of combined hearing and vision problems in the United States. More than half of the estimated 16,000 people in this country who are deaf and blind are believed to have US. People with this form of Usher Syndrome, Type 1B, are profoundly deaf from birth and have severe balance problems. They often begin to develop vision problems by the time they are ten, and tend to progress rapidly until they are completely blind. This discovery is a major step forward in understanding the causes of Usher Syndrome and pinpointing potential targets for therapy. (Extramural)
Gene Responsible for Ataxia Telangiectasia (A-T) Discovered–discovery of the gene and mutations responsible for ataxia telangiectasia (A-T), a complex inherited childhood disorder characterized by weakened muscle control, a sensitivity to x rays, an unusually high risk of diabetes, lung infections, dilated blood vessels in the eyes and other parts of the face, and a predisposition to many different types of cancer. People with A-T usually die of respiratory failure or cancer by their early twenties. Researchers are particularly interested in A-T because it affects so many different systems in the body. The A-T protein was found to communicate with the tumor suppressor gene p53, which normally helps to halt cell growth and allow DNA damage to be repaired. Scientists believe it also communicates with other important proteins in the cell. (Intramural and Extramural)
Overwhelming Success in Treatment for Sickle Cell Anemia–a clinical trial of treatment for sickle cell anemia was halted early due to its overwhelming success. Daily administration of the drug hydroxyurea reduced the frequency of painful episodes and related hospital visits by about 50%; reduced the frequency of acute chest syndrome, a life-threatening complication of sickle cell anemia characterized by chest pain, fever, prostration, and an abnormal chest X-ray; and reduced the number of blood transfusions for patients in the study. Sickle cell anemia is an often fatal disease that affects millions throughout the world. Approximately 2 million Americans carry the sickle cell trait, and about 72,000 are affected by the disease. (Intramural and Extramural)
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1990-1994
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Two Breast Cancer Susceptibility Genes Indentified–identified two breast cancer susceptibility genes, BRCA1 and BRCA2, that together account for up to 70% of all hereditary breast cancers (between 5% and 10% of all breast cancer is hereditary). Mutations in BRCA1 and BRCA2 have also been implicated in ovarian cancers, and BRCA2 mutations have now been associated with increased risks of cancers of the prostate, pancreas, gallbladder, bile duct, and stomach as well as malignant melanoma. (Extramural and Intramural)
Genes Involved in Colon Cancers Identified–identified four genes that may be involved in over 13% of colon cancers. These genes code for proteins engaged in DNA "mismatch repair", a form of genetic spell-checking. Once scientists linked one mismatch repair protein to human colon cancer, previous research using bacteria pointed them to the other three human genes. (Extramural and Intramural)
Primary Gene Responsible for Kidner Cancer Identified–identified the gene responsible for the most common type of kidney cancer, sporadic (nonfamilial) clear cell carcinoma, which accounts for about 85 % of all kidney cancers. This gene had been previously identified as the cause of the inherited cancer syndrome von Hippel-Lindau (VHL) disease, which leads to tumors in the adrenal glands, the kidneys, the pancreas, and parts of the nervous system including the brain, eye and spinal cord. (Intramural)
Mutations in p53 Lead to Tumor Formation–discovered the most frequently mutated gene in human cancer, which codes for the p53 protein. This protein acts like an emergency brake in the cell cycle. Mutations in p53 lead to uncontrolled cell growth and tumor formation. (Extramural)
The First Trial of Gene Therapy in Humans–first trial of gene therapy in humans, in which infusions of genetically altered cells were used to treat adenosine deaminase deficiency, a rare genetic disease that cripples the immune system. (Intramural)
Discovered the Gene Involved in Fragile X Syndrome–discovered the gene involved in fragile X syndrome, the most common inherited form of mental retardation in males. In 1980s, discovered the fragile X syndrome. (Extramural)
Effective Treatment for Rheumatoid Arthritis–proved the safety and effectiveness of methotrexate for treating rheumatoid arthritis and juvenile rheumatoid arthritis. (Extramural)
Osteoarthritis Gene–found for the first time a gene that causes a form of osteoarthritis. (Extramural)
Effective Treatment for Lupus–determined an effective treatment for lupus kidney disease. This work has been going on since the 1970s. (Intramural)
Estrogen and Bone Loss–determined mechanisms by which estrogen is effective against bone loss. (Extramural)
Three-Dimensional Structure of Myosin–determined the three-dimensional structure of myosin, a protein critical to generating force and motion in nearly all living things. (Extramural)
New Methods for Growing Skin–developed new methods for growing sheets of skin to treat people with burns and blistering diseases. (Extramural)
Determined the Gene Responsible for Ichthyosis–determined the gene and structural defect in the skin responsible for a form of ichthyosis. (Intramural and extramural)
Control of Glucose Levels and Diabetes–showed that tight control of blood glucose levels effectively delays the onset and slows the progression of long-term diabetes complications including diabetic retinopathy, nephropathy, and neuropathy in patients with insulin-dependent diabetes. (Extramural)
Cholesterol Reduction and Heart Disease–showed that people who already have some form of heart disease can benefit from cholesterol reduction. (Extramural and National Cholesterol Education Program; work also done during the 1980s but became clear in the 1990s)
Familial Hypercholesterolemia–discovered and characterized the genetic abnormality of a second form of familial hypercholesterolemia. (Extramural)
First Effective Treatment for Spinal Cord Injury–demonstrated the first effective treatment for spinal cord injury. Patients treated with methylprednisolone within the first 8 hours of a spinal cord injury recovered more motor and sensory function than patients who did not receive this drug. (Extramural)
Drug Treatment for Parkinson's Disease–found a new drug that, when added to the standard levodopa/carbidopa treatment, prolongs by more than 60 percent the relief of symptoms in patients with Parkinson's disease. (Intramural)
Valium Reduces Risk of Seizures in Infants–found that valium, given at times of fever, safely reduces the risk of febrile seizure recurrences in infants and children. (Extramural)
New Drug for Epilepsy–helped to develop a major new drug for epilepsy, felbamate, that is safe at high doses and does not have side effects commonly associated with other antiepileptic drugs. (Intramural)
Alzheimer's Risks–showed that the gene dose of apolipoprotein E type 4 is a major risk factor for late-onset Alzheimer's disease. (Extramural)
Bone Mass in Children and Calcium–discovered that a calcium intake by children that is higher than the recommended daily allowance significantly increased their gain in bone mass. (Extramural)
Drug Treatment for Stroke Prevention–found that drug treatment can help prevent strokes in older people with isolated systolic hypertension. (Extramural)
Treatment with Aspirin Lowers Risk of Heart Attack–showed that treatment with aspirin or warfarin dramatically lowers the risk of stroke in patients with atrial fibrillation. Widespread application of this finding could result in prevention of 20,000 to 30,000 strokes per year in the United States. (Extramural)
Taxol–developed taxol as a therapy for ovarian and breast cancer. (Extramural; also during the late 1980s)
Advances in Cancer Treatment–supported the development of limb-sparing surgery for cancer patients and lumpectomy plus radiation rather than mastectomy for breast cancer. (Extramural; this work has been done since the 1970s.)
Developed Methods of Hypertension Control–developed and disseminated methods of hypertension control. In 1972, based on scientific evidence of the importance of detecting and treating hypertension, NHLBI established the National High Blood Pressure Education Program. During the term of the program, deaths due to stroke declined by more than 57 percent and deaths due to heart attacks declined by about 50 percent. The association of these dramatic declines with the NHLBI program suggests that the hypertension research and education efforts of NHLBI have contributed substantially to a major advance in the nation's health. (This effort has been under way since 1970s.)
CMV Retinitis Treatment–improved treatment for CMV retinitis, a potentially blinding retinal disease that affects about one of every four people with AIDS. (Intramural and extramural)
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1980s
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Gene Tranfer in Humans–first transfer of a foreign gene into humans. (Intramural)
Cystic Fibrosis Gene Identified–identified the cystic fibrosis gene, thus allowing for improved diagnosis and early treatment. This discovery also laid the groundwork for attempts to cure the disease through gene therapy. (Extramural)
Drug Treatment for HIV–identification of the first drug to show any efficacy against HIV in laboratory tests and the first administration of the drug to a patient with AIDS. (Intramural)
Treatment for Wegener's Disease–development of successful treatments for several formerly fatal diseases–such as Wegener's granulomatosis–that are characterized by inflammation of the walls of blood vessels. (Intramural; work started in 1970s)
Provided Evidence for Other Forms of Hepatitis–provided indisputable evidence that 90% of post-transfusion hepatitis still being seen after development of the screening test for hepatitis B was due to one or more previously unrecognized human hepatitis viruses. Showed that the first of these, the hepatitis C virus, was a transmissible agent. (Intramural)
Antibody Receptor Structure Determined–determined the complete structure of the IgE receptor that is involved in triggering allergic reactions. (Intramural)
Demonstrated Acyclovir Safe for Herpes Treatment-demonstrated that continual use of the antiviral drug acyclovir was safe and effective in preventing recurrences of oral and genital herpes infections. (Intramural)
Estrogen and Bone Loss–proved the effectiveness of estrogen replacement for stopping the bone loss of osteoporosis. (Extramural)
Verified DES Exposure Related to Reproductive Abnormalities–developed a mouse model that verified the relationship between prenatal exposure to diethylstilbestrol (DES) and reproductive tract abnormalities in male and female children of mothers who were prescribed the drug during pregnancy. (Intramural)
New Treatment for Diabetic Complications–determined the sequence of reactions triggered by the enzyme aldose reductase (AR) that underlie the development of diabetic complications such as sugar cataracts and nerve damage. This finding resulted in studies of AR inhibitors as a new treatment for these problems. (Intramural)
Developed New Oral Contraceptives–developed a long-acting androgen contraceptive, as well as safer and more effective short- and long-acting estrogens and progestogens for oral contraceptives. (Extramural; the estrogen work was done in late 1980s and early 1990s)
EPO to Correct Anemia–used recombinant erythropoietin to correct anemia in patients with end-stage renal disease. (Extramural)
Cholesterol's Role in Heart Disease–discovered cholesterol's role in heart disease and the effects of lowering cholesterol. Discovery of the LDL receptor and the regulation of cholesterol metabolism. (Extramural; Nobel prize in 1985)
Proved That Lowering Cholesterol Reduces the Risk of Heart Disease–provided the first definitive proof in humans that lowering blood cholesterol reduces the risk of coronary heart disease. The study showed that dietary restriction of cholesterol and fat along with a cholesterol-lowering drug reduced cholesterol levels and caused a 19 percent reduction in definite coronary heart disease death or nonfatal heart attacks. Moreover, the degree of reduction in coronary heart disease risk was found to be related to the degree of cholesterol lowering, with a 2-percent reduction in risk observed for every 1-percent reduction in serum cholesterol. (Extramural)
Guidelines on Cholesterol Screening–provided the guidelines for physicians on cholesterol screening and, in the 1990s, for the public on how to lower their cholesterol levels.
Pioneered the Angiographic Studies–pioneered the angiographic studies that showed that decreasing one's cholesterol levels does slow the progression of fatty deposits and can shrink them in the coronary arteries. (Extramural)
Revised Current Understandings of Coronary Lesions–revised the understanding of which coronary lesions are really important in angiography by showing that lipid-rich plaques can be more dangerous than advanced lesions and that these dangerous lesions can be treated through cholesterol reduction methods.
(Extramural; also during the 1990s)
Studies on Estrogen and Heart Attacks–conducted observational studies that showed that women who took estrogen supplementation had a markedly reduced death rate from heart attacks. (Extramural)
Surfactant–developed a surfactant to prevent or treat respiratory distress syndrome. (Extramural)
Developed New Technology for Making Vaccines–developed the new conjugate technology for making vaccines and developed one for H. influenzae type b that is effective in infants. (Intramural)
Chemotherapy and Leukemia–developed supportive treatments for patients with leukemia who are prone to infections after chemotherapy. (Extramural and Intramural; also during the 1970s)
New Therapies for Sickle Cell Disease–conducted studies of sickle cell disease leading to the development of clinically useful therapies to elevate fetal hemoglobin as a treatment for sickle cell and thalassemia syndromes. (Intramural; work done since the 1960s)
Retinal Cell Transplantation–helped to establish the scientific basis for retinal cell transplantation that could have huge treatment ramifications for blinding diseases such as macular degeneration and retinitis pigmentosa. (Extramural)
Therapy for Protecting the Vision of Premature Infants–showed that briefly freezing the outer part of the retina with a probe can protect the vision of many premature infants with retinopathy of prematurity. This research could save the Federal government as much as $20 million annually. (Extramural)
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1970s
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Genetic Origin of Cancer–discovered that oncogenes have normal cellular functions, thus laying the cornerstone for understanding the genetic origin of cancer and widening the insight into the complicated signal systems that govern the normal growth of cells. (Extramural; Nobel prize in 1989)
First Successful Cure for Childhood Leukemia–development of the first successful cure for a childhood cancer (leukemia). This played a major role in establishing chemotherapy as a standard cancer treatment. (Intramural; work was done during the 1950s and 1960s)
Discovered Lyme Disease–discovered Lyme disease and developed treatment for it. (Extramural and intramural)
Treatment for Psoriasis–developed a treatment (PUVA) for the skin disorder psoriasis. (Extramural)
Identified Agents of Various Infectious Dieseases–identified or isolated the agents responsible for a number of infectious diseases including hepatitis A and intestinal infections, particularly infant diarrhea. (Intramural)
Normal Aging Versus Disease–established the importance of distinguishing between the normal processes of aging and the changes produced by diseases in later life. Also, developed the ability to make such distinctions. (Intramural; this work continues through today.)
Described Hormone Interactions During Menstruation–provided the first comprehensive description of the sequence of hormonal interactions during the menstrual cycle. This laid the foundation for modern reproductive endocrinology and new approaches to contraception and infertility. (Intramural)
Home Pregnancy Tests–developed the assay for human chorionic gonadotropin that evolved into the home pregnancy tests. (Intramural)
Developed a Microassay for Thyroid Hormone–developed a microassay for thyroid hormone that made simultaneous screening of newborns for both congenital hypothyroidism and PKU possible. Studies showed the effectiveness of this screening and thyroid hormone replacement in preventing mental retardation; screening for both disorders is now mandatory in all 50 states. (Extramural; also during early 1980s)
Demonstrated Efficacy of Amniocentesis–demonstrated the safety and accuracy of prenatal diagnosis of congenital disorders associated with mental retardation by means of amniocentesis. (Extramural)
Role of Asbestos in Cancer–elucidated the role of asbestos in cancer especially when smoking is a risk factor. (Intramural and extramural)
Identified Carcinogens in Tobacco Smoke–identified the specific carcinogens in tobacco smoke and their mechanisms of action, as well as the hazards of smokeless tobacco. (Intramural and extramural)
Testicular Cancer Cure–discovery of cisplatin as a cure for testicular cancer. (Extramural)
Laser Surgery an Effective Treatment for Diabetic Retinopathy–established laser surgery as a safe and effective treatment for diabetic retinopathy. It is estimated that laser surgery for this disease will save the Federal government up to $2.8 million over the next 20 years. (Extramural)
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1960s
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Demonstrated Laboratory Protein Synthesis–demonstrated that the information required to fold the polypeptide chain of ribonuclease into the specific three-dimensional form of the active enzyme resides in the sequence of amino acids. Thus it became clear that this protein could be synthesized in the laboratory by joining the proper amino acids in the correct order and allowing the chain of amino acids to spontaneously fold. (Intramural; Nobel prize in 1972)
Discovered of a New Mechanism for Infectious Diseases–recognized the first human slow virus disease, kuru, which is a degenerative, fatal infection of the central nervous system. This discovery of a new mechanism for infectious diseases revolutionized thinking in microbiology and neurology. (Intramural; Nobel prize in 1976)
Cracked the Genetic Code–cracked the genetic code, deciphering how nature uses the order of DNA bases to produce proteins that determine the nature and characteristics of all living things. (Nobel prize in 1968) This has led to major advances in our understanding of genes and their roles in health and disease as well as to revolutionary new ways to treat or prevent diseases through the use of recombinant DNA technology (the development of which was supported by NIH) and gene therapy (which was first done by NIH intramural scientists).
Advanced the Understanding of Brain Chemistry–defined the mechanisms that regulate noradrenaline, one of the most important neurotransmitters in the brain. This discovery provided a clearer understanding of the chemistry of the brain and its effect on human behavior, which, in turn, has led to the development of better drugs for treating mental disorders. (Intramural; Nobel prize in 1970)
Discovered Surface Antigen of the Hepatitis B Virus–discovered the Australian antigen, later identified as the surface antigen of the hepatitis B virus and principal diagnostic indicator of serum hepatitis. This led to a test to screen donated blood for the presence of hepatitis B, greatly reducing the risk of transfusion hepatitis. (Intramural and extramural; Nobel prize in 1976)
Developed Rubella Vaccine–developed the first licensed rubella vaccine and the first test for rubella antibodies that was practical for large scale testing (rubella hemagglutination inhibition test). (Intramural)
Hodgkin's Lymphoma–discovered an effective combination drug therapy for Hodgkin's lymphoma. (Intramural)
Tooth Decay is Caused by Bacteria–discovered that tooth decay is caused by bacteria. (Intramural)
Effectiveness of Using Lights for Jaundice in Newborns–clarified the safety and effectiveness of using lights rather than exchange transfusion for jaundice in newborn infants. (Extramural)
Effectiveness of Neonatal Screening for PKU–documented the effectiveness of neonatal screening and dietary restriction in preventing mental retardation due to phenylketonuria. (Extramural)
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1950s
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–first complete removal and successful replacement of a patient's diseased mitral valve with an artificial one, which was developed at NIH. (Intramural)
–identified or isolated a number of agents responsible for respiratory infections ranging from croup to pneumonia. (Intramural)
–discovered the cure for choriocarcinoma. (Intramural)
–created a system of mouse plasma cell tumors that made possible the development in 1975 of hybridomas, cells that produce monoclonal antibodies. These antibodies have revolutionized biomedical research. (Intramural)
–discovered that low levels of fluoride in drinking water could prevent tooth decay. This work began in the 1930s, continued through the 1940s and culminated in the 1950s. (Intramural)
Advances for the period 1950-present were prepared by: Harrison Wein, Ph.D.
Email: weinh@od.nih.gov
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1887-1950
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The list of NIH research advances, 1887-1950, was compiled by Victoria A. Harden and Harriet Greenwald. Selected portions were published as "Timeline of NIH Discoveries, 1887-1929," in NIH Alumni Association newsletter, Update 2 (Winter 1990): 8-11; and "Timeline of NIH Discoveries, 1930-1940," in ibid. 4 (Winter 1992): 9-11. Email: history@nih.gov
1950 Earl Stadtman of NHI discovered phosphotransacetylose, elucidating the role of acetyl CoA in fatty acid metabolism.
1950 Roger M. Cole and Byron J. Olson in collaboration with Veterans Administration physicians conducted epidemiologic studies of army veterans, reaffirmed the preponderance of sacrodosis in blacks in the U.S. and implicated a rural southern birthplace of both black and white patients as a predominant association with this disease--the etiology of which is still unclear.
1950 Bernard (Steve) Brodie of NHI published a paper on procaine that was illustrative of the "new pharmacology"--a rational introduction of biochemistry and organic chemistry in the analysis of drug metabolism and disposition.
1950 Dorland J. Davis and Margaret Pittman identified the causative organism (Koch-Weeks bacillus) of epidemic bacterial conjunctivitis. Known as Hemophilus aegyptius, it occurs in warm climates only during the breeding seasons of the gnat (or the "eye" fly). They found that zinc sulfate and streptomycin were curative.
1950 Robert W. Berliner of NHI conducted work on renal physiology that led to a new theory concerning the mechanism of urinary excretion and concentration.
1950's Seymour S. Kety at NIMH conducted pioneer cerebral blood flow experiments that revealed metabolic activity of the brain.
1949-50 NIH started the Heart Disease Epidemiology study at Framingham, Massachusetts, which became a population laboratory for research on life style factors in the development of cardiovascular diseases. This ongoing study has provided a basis for heart disease prevention programs. It gave the world the term "risk factors" to describe behaviors or conditions that increase the chance of disease.
1940-57 Ben D. Chinn, Leon Jacobs, Lucy V. Reardon, Charles W. Rees, and Bruce Phillips in the Laboratory of Tropical Diseases developed techniques for cultivating Entamoeba histolytica, in standardized culture media.
late 1940's- early 1950's In the microsomes of rabbits' livers, Julius Axelrod discovered a new class of enzymes, cytochrome-P450 monooxygenases, which exerted a profound influence in many areas of research, including studies of the metabolism of normally occurring compounds and investigations of carcinogenesis.
Late 1940's- early 1950's Extensive research on enzymes was carried out by Arthur Kornberg, Leon Heppel, Herbert Tabor, Jesse Greenstein, Alton Meister, Herbert Sober and their colleagues. The work of Arthur Kornberg laid the groundwork for his later important discoveries on the synthesis of DNA, for which he was awarded the Nobel Prize in 1959.
1940's-50's Bernard Horecker and colleagues elucidated the reactions of the pentose phosphate pathway.
1940's-50's Chester Emmons first pointed out reservoirs of histoplasmosis in soil and bats (1948), of coccidiomycosis in soil (1942), and of cryptococcosi in soil and pigeon droppings (1951). These findings were crucial to understanding the sources of infection by these pathogenic fungi so that patients could be tested and treated.
1940's The nutrition group, including W. Henry Sebrell, Floyd Daft, James Hundley, Harris Isbell, Arthur Kornberg, and others published reports identifying a blood abnormality due to folic acid deficiency, the adrenal degeneration resulting from pantothenic acid deficiency, and the differentiation between liver necrosis and liver cirrhosis.
1949 Louis Olivier performed controlled studies on the role of hypersensitivity in schistosome dermatitis, demonstrating that lesions increase with repeated exposure to larvae of avian schistosomes.
1947-48 Henry Kaplan showed the origin of lymphoid tumors in irradiated mice.
1947 Jesse P. Greenstein of NCI summed up 20 years of research in his book, Biochemistry of Cancer. The work analyzed and synthesized what was known at the time about oncologic biochemistry.
1946 The Research Grants Office was created at NIH in January to administer the Office of Scientific Research and Development projects transferred to the Public Health Service at the end of World War II and to operate a program of extramural research grants and fellowship awards.
1946 Margaret Pittman revised the formula medium for the sterility testing of biologic products. It is now used worldwide.
1946 In a period of 8 months, Robert J. Huebner, William L. Jellison, and their colleagues elucidated a new disease, rickettsialpox, in cooperation with New York State health authorities. They described the disease, its etiological agent, its reservoir in mice, and its vector, a rodent mite.
1946 Lloyd Law of NCI introduced the L1210 murine leukemia cell line tumor used in the cancer drug screening program.
1945-1950's Everette May and colleagues working with Lyndon Small's medicinal chemistry group, synthesized phenazocine, a non-addicting substitute for morphine.
1945 W. Ray Bryan, Michael B. Shimkin, Howard B. Andervont, Herbert Kahler and Thelma B. Dunn published the first NCI monograph, Mammary Tumors in Mice, which showed that the mouse breast cancer "agent" was a filterable virus.
1945 Ralph Wyckoff and Robley William introduced the shadowing of electron microscope speciments with heavy metal specimens to accentuate their contrast.
1945 Karl Habel cultivated mumps virus in embryonated eggs and devised serological tests for its presence.
1945 Frederick J. Brady and colleagues pioneered the use of radioisotopes in pharmacology, especially to identify the sites of activity of drugs in animals infected with filariid parasites.
1943 Harold W. Chalkley devised a method that now bears his name for the quantitative morphologic analysis of tissues.
1943 Margaret Pittman began work on the intracerebral challenge potency assay for pertussis vaccine. The standardization effected within 5 years a tenfold drop in pertussis infant mortality in the U.S.
1943 Glenn H. Algire, using the transparent-chamber technique, demonstrated a method for making microscopic studies in vivo to view tumor growth in the mouse.
1943 Wilton R. Earle of NCI, who had in the 1930's pioneered the process of growing cells in culture, published a classic paper describing the production of malignancy in vitro. Katherine K. Sanford of Earle's group developed the first clone from an isolated cancer cell. Virginia J. Evans also devised a medium that supported growth of cells from many tissues of different animals.
1943 Sanford M. Rosenthal, Herbert Tabor, R. Carl Millican, and Kehl Markley demonstrated that shock in burn patients can be treated by a salt and soda solution administered orally.
1942 A classic manual describing and illustrating the stages of the malaria parasites was prepared by Aimee Wilcox and Inez Demonet.
1942 Chester Emmons first pointed out reservoirs of coccidiomycosis in bats.
1942 Francis Arnold introduced the Syrian hamster as a suitable animal model for the study of dental caries research.
1942 "Louisiana pneumonitis," a human disease possibly related to psittacosis, was discovered and studied in great detail by Bryan J. Olson, Carl Larson, Waldo L. Treuting and George Fite.
1942 Karl Habel succeeded in passaging a rubella virus isolate through chick embryos and monkeys, providing an animal model to study the growth of the virus and the disease it caused.
1942 Lloyd Felton, utilizing pneumoccal polysaccharides, demonstrated a phenomenon known as "immunological paralysis" or immune tolerance.
1942 Willard H. Wright, Eloise Cram, Walter L. Newton, and colleagues launched research that helped eliminate parasitic eggs and cysts from public water supplies.
1941-45 During World War II, research at NIH included the development of an oxygen-supply apparatus to prevent pilot death when airplanes climbed too rapidly. This work was done collaboratively with the U.S. Navy in NIH laboratories.
Studies were conducted at NIH on the effects of radiation related to the development of the atom bomb. Studies were also conducted on the nature of wound healing.
NIH tested clothes for the military. Willard H. Wright impregnated DDT into clothing as a protection against lice.
Roderick Murray and J. T. Tripp supervised the first program on blood and blood products to establish standards for an uncontaminated blood supply. John Oliphant and Alexander Hollaender later designed an apparatus in which serum or plasma could be irradiated to destroy hepatitis virus so that it could be safely used.
1941 Floyd C. Turner published data showing the induction in rats of sarcomas by subcutaneously implanted bakelite disks.
1941 Harold L. Stewart and Egon Lorenz demonstrated by chemical carcinogenesis the induction of adenocarcinoma of the glandular stomach of mice, which was the first demonstration of cancer induction by chemicals in any species of laboratory animal.
1941 Dean Cowie and Leonard Scheele's survey of procedures used in handling and storing radium loaned to hospitals led to recommendations that exposure doses should be lower.
1941 Jonathan L. Hartwell published a Survey of Compounds Which Have Been Tested For Carcinogenic Activity, the first of a series of surveys and indices for investigators concerned with chemical carcinogens.
1938-41 G. Robert Coatney and Martin D. Young described the differing characteristics of infections caused by strains of malaria parasites obtained from different places around the world. Different strains of the malarial parasite can cause infections with different pathology.
1941 Ida A. Bengtson and Norman Topping developed a complement fixation test for diagnosis of rickettsial diseases.
1940-42 Walter E. Heston demonstrated the genetic susceptibility of mice to spontaneous pulmonary tumors. This led to his findings via transplantation of the site of gene action being in the tissue itself.
1940 Karl Habel produced an improved, killed rabies vaccine that eliminated foreign brain tissue that had caused paralysis in some patients.
1939-40 Hugh G. Grady and Harold L. Stewart first identified the type II cell of the pulmonary alveolus as the cell of origin of the common alveologenic tumours of the lungs of mice.
1930's Jerald G. Wooley and W. Henry Sebrell developed the first satisfactory diets for experimental rabbits and investigated the connection between nutrition and infection by studying the pneumococcus-infected mice that were deficient in thiamine and riboflavin.
1930's Howard B. Andervont's research at NCI increased understanding of genetic factors in mammary, hepatic and pulmonary tumors in mice.
1939 Margaret Pittman showed that sulfapyradine was effective against nontype-specific Haemophilus influenzae.
1930's Margaret Pittman extended investigations on potency requirements for Haemophilus influenzae antiserum and diagnosis requirements of the six capsular types.
1930's Sanford M. Rosenthal developed a treatment for mercury poisoning used widely before the advent of dimercaptoethanol.
1930's-40's Two of Claude Hudson's many contributions to carbohydrate chemistry: 1) he showed that mutarotation of natural glucose in water was subject to general acid-base catalysis; 2) he developed a "lactone rule," noting that the optical rotatory sign of an aldonic acid lactone was controlled by the configuration of the carbon bearing the hydroxyl group involved in the ring closure.
1938-40 Charles W. Rees developed a micromanipulator that permitted microscopic handling of amoebic cysts as well as other organisms.
1939 Louis Schwartz and H. R. Foerster described industrial dermatitis and melanosis due to photosensitization.
1939 Charles Armstrong adapted the Lansing strain of poliomyelitis to cotton rats and then to laboratory mice, thus providing investigators with an inexpensive experimental animal for polio studies.
1938-50 John Bozicevich developed immunological methods for the diagnosis of helminth parasitic infections.
1938-40 Murray J. Shear of NCI reported that a basic fraction of creosote oil enhanced the production of mouse tumors. He termed this fraction to be a source of a "cocarcinogen."
1938 W. Henry Sebrell and Roy F. Butler published the first clinical description of ariboflavinosis, a human riboflavin deficiency.
1938 Gordon E. Davis and Herald R. Cox identified a new rickettsial disease, which they called Nine Mile Fever. Rolla E. Dyer first showed the relationship of the organism to that of Australian Q Fever, and its identify was subsequently confirmed by the compliment-fixation and vaccine studies of Ida E. Bengtson.
1938 Herald R. Cox discovered that rickettsiae could be cultivated successfully in the yolk-sacs of chick embryos. During World War II, all rickettsial vaccines were produced by this method.
1937-41 Harold L. Stewart and Howard B. Andervont first described the pathology and proper histological classification of the adenomatous lesion of the glandular stomach of strain I mice, which was important to the understanding of carcinogenesis.
1937-38 Henry Klein, Carroll E. Palmer, John W. Knutson devised a DMF (Decayed Missing Filled) Index guide that became the standard epidemiological tool for studies and surveys of children's dental status.
1938 Margaret Pittman showed that the precipitin reaction around meningococcus colonies on immune serum agar plates was directly correlated with the mouse potency assay of each lot of antiserum.
1937 Margaret Pittman, Sara E. Branham, and E. M. Sockrider showed the type specificity of meningococcus by use of the Petrie's precipitin test.
1937 Maurice C. Hall developed a technique, known as the "NIH swab," to diagnose enterobiasis; it is still the accepted technique.
1937 Maurice C. Hall, Willard H. Wright and colleagues launched a series of studies that demonstrated the extent of human trichinosis in the United States and contributed to methods for its control.
1937 Sanford M. Rosenthal, Hugo Bauer and Sara E. Branham began pioneering work on the sulfonamides and their application to humans in the treatment of bacterial infections.
1936-40 Maurice I. Smith, Ralph D. Lillie, and Benton B. Westfall reported on the toxicology, pathology and metabolism of selenium.
1935 Lawrence Kolb reported a series of studies on innovative treatment for drug addicts who were patients in the PHS Hospital in Lexington, Kentucky.
1934 Ida A. Bengtson began standardization of antitoxin for six species of Clostridium which cause gas gangrene.
1934 Charles Armstrong and Ralph D. Lillie identified the lymphocytic choriomeningitis virus that caused a disease, commonly termed "Armstrong's disease," in house mice and in humans exposed to infected mice.
1933 Louis Schwartz, F.C. Makepeace, and H. Trendley Dean published findings showing the hazardous effects of radium dial painting.
1932 A section on heart disease supervised by Arthur M. Stimson began to study the causes of rheumatic fever. It signaled the first involvement of NIH with heart disease.
1931 H. Trendley Dean and Elias Elvove started work on the mystery of "mottled enamel" -- later called fluorosis. During the next 10 years, aided by Frank McClure and Francis Arnold, they laid the basis for the controlled use of fluoride to prevent cavities.
1931 Rolla E. Dyer, Lucius F. Badger, and Adolph S. Rumreich demonstrated that Rocky Mountain spotted fever existed on the eastern seaboard of the United States and that endemic (murine) typhus was transmitted by rat fleas.
1930 Maurice I. Smith, Elias Elvove and their collaborators discovered the cause of "Jamaican Ginger" paralysis.
1930 Sara E. Branham identified a new organism, Neisseria flavescens, as a rare cause of meningitis and septicemia in humans, but one requiring careful differentiation from meningococcus. In 1970 she was honored posthumously by the name of a new genus, Branhamella.
1930 Maurice I. Smith developed a quantitative colorimetric reaction for the ergot alkaloids.
1930 Ralph Lillie demonstrated that the cause of psittacosis was a rickettsia-like organism (later placed in the genus Chlamydia) instead of a virus. The research of his colleague Charles Armstrong on the disease resulted in governmental regulation of the importation of psittacine birds.
1920s Ida A. Bengtson and Charles Armstrong worked on the problems of food poisoning and botulism as a result of improperly canned foods. Their work contributed to better and safer methods of canning.
1920s Lawrence Kolb conducted early studies on narcotic addiction and its relationship to crime and personality. In association with Albert C. Dumez, he was able to produce morphine and heroin dependence in monkeys.
1920s Lewis R. Thompson worked on problems of industrial health and contributed a series of well-known monographs on the health of workers subject to lung diseases from workplace dust.
1920s Carl Voegtlin, who was in charge of cancer research at the Hygienic Laboratory, conducted early studies on the biochemistry of cancerous and normal tissue. He also investigated the effects of nutrients--protein, riboflavin and biotin--on liver tumors in rats. These studies were among the earliest on the relationship between nutritional factors and cancer.
1928 William Mansfield Clark published a summary of his classic work during the decade on oxidation-reduction systems.
1926 James P. Leake wrote the authoritative study on the multiple pressure method of vaccination for smallpox.
1926 Kenneth F. Maxcy identified an "endemic" form of typhus fever in the southeastern United States and suggested that some parasite of the rat might be its vector.
1925 Carl Voegtlin described much of the pharmacology of arsphenamine and related arsenicals.
1925 Rolla E. Dyer defined the unit for scarlet fever streptococcus antitoxin.
1925 Charles Armstrong showed that 25% of commercial bunion pads commonly used to cover smallpox vaccinations were contaminated with tetanus spores. His recommendations that such dressings be abandoned saved lives and stimulated the development of the multiple pressure method of vaccination.
1925 Joseph W. Schereschewsky, head of a PHS Special Cancer Investigations Laboratory established in 1922 in Cambridge, Massachusetts (in cooperation with Harvard University Medical School), published a statistical review of cancer death figures in the United States, 1900-1920, which increased interest in cancer research.
1924 Roscoe R. Spencer and Ralph R. Parker produced a vaccine against Rocky Mountain spotted fever, the first human vaccine prepared from the bodies of arthropod vectors.
1923 Atherton Seidell developed a physiological test for the activity of vitamin preparations.
1923 William Mansfield Clark alerted the public to the dangers of tetraethyl lead in gasoline, and further field studies, conducted by James P. Leake, set the standards for the safe level of lead in gasoline.
1922 Ida A. Bengtson discovered a new variety of Clostridium botulinum. This strain was designated as type "C."
1919 Edward Francis extended the earlier observations on tularemia. His other studies, continued into the 1920s, clarified the nature of the agent, its distribution in animals, the role of ticks and deer flies as vectors and the routes of infection in man. The bacterium was later named Francisella tularensis in his honor.
1918 Alice C. Evans described the organism that caused undulant fever. Her work hastened the pasteurization of milk in the United States. She also initiated the collection and study of streptococci and their bacteriophages.
1917 Mather H. Neill discovered that scrotal reactions of guinea pigs with "Mexican" typhus (later known as murine typhus) could be used as a differential test with "European," or epidemic, typhus. It was first known as the Neill phenomenon (later called the Neill-Mooser phenomenon after Neill and Herman Mooser, a Swiss pathologist working in Mexico).
1916-1918 During World War I, work by Hygienic Laboratory investigators changed the way smallpox vaccinations were administered to soldiers. They also found that shaving brushes were a source of anthrax and tetanus infections, and production methods were changed.
1915 Edward Francis improved the method for embalming, which was of great importance for intrastate shipping of bodies.
1914 Walter L. Treadway conducted first Hygienic Laboratory survey on mental health studying the role of public and private agencies in ministering to social needs. He continued over the next fifteen years to do surveys on mental health and other problems.
1914 Joseph Goldberger identified pellagra as a nutritional deficiency disease.
1913-1919 Earle B. Phelps in the Division of Chemistry conducted a series of studies on water pollution and the biochemistry of sewage and industrial wastes which had far reaching importance for pure water.
1911-1914 George W. McCoy, Charles W. Chapin, William B. Wherry, and B. H. Lamb elucidated a new disease, tularemia.
1911 John F. Anderson and Joseph Goldberger first transmitted measles (rubeola) to monkeys by contact.
1911 John F. Anderson and Wade H. Frost provided the first laboratory evidence of polio infection in persons with non-paralytic disease. This paper was followed by other studies and field investigation in the Hygienic Laboratory on poliomyelitis.
1910 Joseph H. Kastle described the oxidases and other oxygen-catalysts concerned in biological oxidations.
1910 John F. Anderson and Wade H. Frost extended earlier studies on hypersensitivity and used for the first time the word "allergen" in reference to allergic antibodies.
1910 William H. Schultz described the contraction of the isolated strip of sensitized guinea pig ileum when suspended in a bath of physiological solution and challenged by specific corresponding antigen. This reaction became known as the Schultz-Dale phenomenon (the "Dale" from the similar work of English physiologist and pharmacologist Sir Henry H. Dale).
1909 George W. McCoy published a report on 99 neoplasms found in 100,000 rats examined in the plaque control investigation in California. This was the first involvement of the Hygienic Laboratory in cancer research.
1909 John F. Anderson and Joseph Goldberger confirmed Charles Nicolle's finding that the body louse was the vector of epidemic typhus fever. They were the first to transmit typhus by direct inoculation of the organisms into experimental animals.
1908-1911 John F. Anderson, Leslie L. Lumsen and Wade H. Frost expanded scope of earlier typhoid studies and results of their investigations into stream pollution, milk standards, and water purity became classic examples of epidemiological methods and training.
1908 George W. McCoy first demonstrated that rodents were a reservoir of bubonic plague.
1908 Arthur M. Stimson developed a better method for rabies vaccine preparation so it could be sent more safely and thus be more widely distributed.
1908 Milton J. Rosenau and John F. Anderson established the standard unit for tetanus antitoxin.
1907 Joseph H. Kastle and other workers in the Division of Chemistry designed a "hemoglobinometer" to measure hemoglobin in blood. An advance over techniques then in use, it became the standard method for several decades.
1907 Reid Hunt described the toxic effects of methyl and ethyl alcohols.
1907 Joseph H. Kastle developed a reagent for the recognition and estimation of free hydrochloric acid in gastric contents. The reagent he identified became known as "Kastle's reagent."
1906 Milton J. Rosenau, Leslie L. Lumsen, Joseph H. Kastle and other Hygienic Laboratory workers conducted an epochal investigation on the origin and prevalence of typhoid fever in the District of Columbia which became the catalyst for later, broader epidemiological studies.
1906 Reid Hunt discovered the hypotensive effects of acetylcholine.
1906 Milton J. Rosenau and John F. Anderson published a pioneering study on anaphylaxis.
1906 Walter W. King showed the transmission of Rocky Mountain spotted fever by infected ticks to guinea pigs.
1905 Milton J. Rosenau established the standard for diphtheria antitoxin.
1905 Reid Hunt demonstrated the presence of thyroid hormone in the blood and introduced the acetonitril test for thyroid.
1902-03 Julius O. Cobb and John F. Anderson initiated first Hygienic Laboratory studies on Rocky Mountain spotted fever (RMSF). Their works launched forty-five years of research on RMSF.
1902 Charles Wardell Stiles identified the hookworm as the cause of anemia in the southern U.S. Although this discovery was made a few months before he joined the Hygienic Laboratory, his subsequent work on hookworm over the next two decades helped to eliminate it as a problem in the South.
1890s Joseph J. Kinyoun designed the Kinyoun-Francis Sterilizer, a shipboard disinfectant apparatus used effectively for quarantine procedures.
1895 Joseph J. Kinyoun launched production of diphtheria antitoxin at the Hygienic Laboratory, one of the first places it was produced in the United States.
1887 Laboratory of Hygiene founded. Director Joseph J. Kinyoun made the first laboratory diagnosis of cholera in the western hemisphere.
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