Pharmacokinetics of [(18)F]fluoroalkyl derivatives of dihydrotetrabenazine in rat and monkey brain
Michael R Kilbourn, Brian Hockley, Lihsueh Lee, Catherine Hou, Rajesh Goswami, Datta E Ponde, Mei-Ping Kung, Hank F Kung, Michael R Kilbourn, Brian Hockley, Lihsueh Lee, Catherine Hou, Rajesh Goswami, Datta E Ponde, Mei-Ping Kung, Hank F Kung
Abstract
The specific binding and regional brain pharmacokinetics of new fluorine-18 ([(18)F])-labeled radioligands for the vesicular monoamine transporter (VMAT2) were examined in the rat and primate brain. In the rat, 9-[(18)F]fluoropropyl-(+/-)-9-O-desmethyldihydrotetrabenazine ([(18)F]FP-(+/-)-DTBZ) showed better specific binding in the striatum than either (+)-[(11)C]dihydrotetrabenazine ((+)-[(11)C]DTBZ) or 9-[(18)F]fluoroethyl-(+/-)-9-O-desmethyldihydrotetrabenazine ([(18)F]FE-(+/-)-DTBZ). Using microPET, the regional brain pharmacokinetics of [(18)F]FE-(+/-)-DTBZ, [(18)F]FP-(+/-)-DTBZ and (+)-[(11)C]DTBZ were examined in the same monkey brain. (+)-[(11)C]DTBZ and [(18)F]FP-(+/-)-DTBZ showed similar brain uptakes and pharmacokinetics, with similar maximum striatum-to-cerebellum ratios (STR/CBL=5.24 and 5.15, respectively) that were significantly better than obtained for [(18)F]FE-(+/-)-DTBZ (STR/CBL=2.55). Striatal distribution volume ratios calculated using Logan plot analysis confirmed the better specific binding for the fluoropropyl compound [distribution volume ratio (DVR)=3.32] vs. the fluoroethyl compound (DVR=2.37). Using the resolved single active isomer of the fluoropropyl compound, [(18)F]FP-(+)-DTBZ, even better specific to nonspecific distribution was obtained, yielding the highest distribution volume ratio (DVR=6.2) yet obtained for a VMAT2 ligand in any species. The binding of [(18)F]FP-(+)-DTBZ to the VMAT2 was shown to be reversible by administration of a competing dose of unlabeled tetrabenazine. Metabolic defluorination was slow and minor for the [(18)F]fluoroalkyl-DTBZ ligands. The characteristics of high specific binding ratio, reversibility, metabolic stability and longer half-life of the radionuclide make [(18)F]FP-(+)-DTBZ a promising alternative VMAT2 radioligand suitable for widespread use in human positron emission tomography studies of monoaminergic innervation of the brain.
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Source: PubMed