Tumor Glycome Laboratories of the NIH Alliance of Glycobiologists for Detection of Cancer and Cancer Risk
The National Cancer Institute is funding an initiative to discover, develop, and clinically validate cancer biomarkers based on complex carbohydrate structures attached to proteins and lipids. Seven Tumor Glycome Laboratories are searching for glycan-based biomarkers for breast, ovarian, lung, prostate, and pancreatic cancers and melanoma.
Numerous studies comparing normal and tumor cells have shown that changes in glycan structures on the cell correlate with cancer development. Compared to molecular proteins, molecular glycans are extremely abundant and recent advances in technology have now allowed the effective systematic study of these structures.
NCI's Tumor Glycome Laboratories are the principle component of the new trans-NIH Alliance of Glycobiologists for Detection of Cancer and cancer Risk. The other members of the Alliance are the Consortium for Functional Glycomics supported by the National Institute of General Medical Sciences and the Glycomics and Glycotechnology Resource Centers supported by the National Center for Research Resources.
The seven Tumor Glycome Laboratories are:
Project Title Principal Investigator Institution | Objectives of Project (Cancer Type Under Study) |
Discovery and clinical validation of cancer biomarkers using printed glycan array Margaret Huflejt, Ph.D. Cellexicon, Inc. |
Determine the diagnostic or prognostic anti-glycan auto-antibody signatures in patients and for breast cancer, determine how many years prior to diagnosis that progression to cancer can be predicted.
(Breast, Ovary, Lung, Melanoma) |
Immunogenic sugar moieties of prostate cancers Denong Wang, M.D., Ph.D. Stanford University |
Identify anti-glycan autoantibody signatures in prostate cancer patients.
(Prostate) |
Early cancer detection and prognosis through glycomics Milos Novotny, Ph.D. Indiana University |
Identify biomarkers from glycans released from serum glycoproteins and develop high-throughput platforms to measure biomarkers suitable for the clinic.
(Prostate, Ovary, Lung, Colon) |
Glycan markers for the early detection of breast cancer William Hancock, Ph.D., Sc.D. Northeastern University |
Identify breast cancer biomarkers based on aberrant glycan modifications on defined animo acid residues of serum glycoproteins.
(Breast) |
Tumor glycomics laboratory for discovery of pancreatic cancer markers J. Michael Pierce, Ph.D. University of Georgia |
Identify glycoprotein and glycolipid biomarkers from pancreatic cancer in pancreatic ductal fluid that can also be found in serum and development of assays for promising biomarkers.
(Pancreas) |
Autoantibodies against glycopeptide epitopes as serum biomarkers of cancer Michael Hollingsworth, Ph.D. University of Nebraska |
Determine auto-antibody signatures to mucin glycopeptides in pancreatic and breast cancer patients.
(Pancreas, Breast) |
Neu5Gc and Anti-Neu5Gc antibodies for detection of cancer and cancer risk Ajit Varki, M.D. University of California San Diego |
Expand on research showing that cancer patients express antibodies to the cell surface sialic acid N-glycolylneuraminic Acid (Neu5Gc).
(Lung, Pancreas, Ovary) |
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