Synthesis and evaluation of two 18F-labeled 6-iodo-2-(4'-N,N-dimethylamino)phenylimidazo[1,2-a]pyridine derivatives as prospective radioligands for beta-amyloid in Alzheimer's disease.
Cai L,
Chin FT,
Pike VW,
Toyama H,
Liow JS,
Zoghbi SS,
Modell K,
Briard E,
Shetty HU,
Sinclair K,
Donohue S,
Tipre D,
Kung MP,
Dagostin C,
Widdowson DA,
Green M,
Gao W,
Herman MM,
Ichise M,
Innis RB.
Molecular Imaging Branch, National Institute of Mental Health, National Institutes of Health, 10 Center Drive, Bethesda, Maryland 20892, USA. cail@intra.nimh.nih.gov
This study evaluated (18)F-labeled IMPY [6-iodo-2-(4'-N,N-dimethylamino)phenylimidazo[1,2-a]pyridine] derivatives as agents for imaging beta-amyloid plaque with positron emission tomography (PET). The precursor for radiolabeling and reference compounds was synthesized in up to five steps from commercially accessible starting materials. One of the two N-methyl groups of IMPY was substituted with either a 3-fluoropropyl (FPM-IMPY) or a 2-fluoroethyl (FEM-IMPY) group. FPM-IMPY and FEM-IMPY were found to have moderate affinity for Abeta-aggregates with K(i) = 27 +/- 8 and 40 +/- 5 nM, respectively. A "one-pot" method for (18)F-2-fluoroethylation and (18)F-3-fluoropropylation of the precursor was developed. The overall decay-corrected radiochemical yields were 26-51%. In PET experiments with normal mouse, high uptake of activity was obtained in the brain after iv injection of each probe: 6.4% ID/g for [(18)F]FEM-IMPY at 1.2 min, and 5.7% ID/g for [(18)F]FPM-IMPY at 0.8 min. These values were similar to those of [(123)I/(125)I]IMPY (7.2% ID/g at 2 min). Polar and nonpolar radioactive metabolites were observed in both plasma and brain homogenates after injection of [(18)F]FEM or [(18)F]FPM-IMPY. In contrast to the single-exponential washout of [(123)I/(125)I]IMPY, the washouts of brain activity for the two fluorinated analogues were biphasic, with an initial rapid phase over 20 min and a subsequent much slower phase. Residual brain activity at 2 h, which may represent polar metabolites trapped in the brain, was 4.5% ID/g for [(18)F]FEM-IMPY and 2.1% ID/g for [(18)F]FPM-IMPY. Substantial skull uptake of [(18)F]fluoride was also clearly observed. With a view to slow the metabolism of [(18)F]FEM-IMPY, an analogue was prepared with deuteriums substituted for the four ethyl hydrogens. However, D(4)-[(18)F]FEM-IMPY showed the same brain uptake and clearance as the protio analogue. Metabolism of the [(18)F]FEM-IMPY was appreciably slower in rhesus monkey than in mouse. Autoradiography of postmortem brain sections of human Alzheimer's disease patients with [(18)F]FEM-IMPY showed high displaceable uptake in gray matter and low nonspecific binding in the white matter. This study demonstrates that the IMPY derivatives have favorable in vivo brain pharmacokinetics and a moderate affinity for imaging beta-amyloid plaques; however, further improvements are needed to reduce radioactive metabolites, increase binding affinity, and reduce lipophilicity.
PMID: 15084119 [PubMed - indexed for MEDLINE]