부산대학교 도서관

A novel compound for use in magnetic resonance(MR) imaging was created by covalently bonding multiple 19F atom tags to L-DOPA. Tagging L-DOPA permits bypassing the rate-limiting factor in the biosynthesis of dopamine(DA), the conversion of tyrosine into L-DOPA. The next step in the biosynthetic pathway, the removal of the carboxyl group on the molecule by the enzyme L-aromatic acid decarboxylase(AADC), happens rapidly after L-DOPA is taken up into neurons. In order to be useful as a tool in MR imaging, the novel compound and/or its perfluoro-tagged metabolites must accumulate in vesicles in dopaminergic neurons. We administered L-DOPA with a nine 19F atom tag(250 mg/kg) to mice pups, waited 1.5 or 3 hr, and used high pressure liquid chromatography(HPLC) to examine neural tissue samples for tagged L-DOPA and tagged DA. The isomer of L-DOPA with the tag bonded at the 5 position yielded the highest conversion to tagged DA at 1.5 hr after an i.p. injection. This study provides the first direct evidence that L-DOPA, tagged with nine fluorine atoms, is taken up into mammalian brain dopaminergic neurons where it is converted to perfluro-tagged DA. The use of these tagged compounds may make it feasible to investigate the uptake and conversion of important neurotransmitter in vivo with fluorine imaging. [ABSTRACT FROM AUTHOR]