In Vivo and In Vitro Characterization of a Novel MAO-B Inhibitor Radioligand, 18F-Labeled Deuterated Fluorodeprenyl

Abstract

The aim of this study was to radiolabel a novel bis-deuterium substituted l-deprenyl analog (fluorodeprenyl-D2) with (18)F and to evaluate its potential to visualize and quantify monoamine oxidase (MAO) B activity in vivo.

Methods: The precursor compound ( 5A: + 5B: ) and reference standard ( 6: ) were synthesized in multistep syntheses. Recombinant human MAO-B and MAO-A enzyme preparations were used to determine inhibitory concentrations of 50%. Radiolabeling was accomplished by a nucleophilic substitution reaction. Whole-hemisphere autoradiography was performed with (18)F-fluorodeprenyl-D2. A PET study was performed on a cynomolgus monkey. Radiometabolites were measured in monkey plasma using high-performance liquid chromatography.

Results: The 50% inhibitory concentration of compound 6 for MAO-B was 227 ± 36.8 nM. Radiolabeling was accomplished with high radiochemical yield, purity, and specific radioactivity. The autoradiography binding density of (18)F-fluorodeprenyl-D2 was consistent with known MAO-B expression in the human brain. In vivo, (18)F-fluorodeprenyl-D2 showed favorable kinetic properties, with relatively fast washout from the brain. Regional time-activity curves were better described by the 2-tissue-compartment model. Administration of a 1 mg/kg dose of l-deprenyl yielded 70% inhibition of MAO-B in all regions. Radiometabolite studies demonstrated 20% unchanged radioligand at 120 min after injection. (18)F-fluorodeprenyl-D2 showed less irreversibility than did previously reported MAO-B radioligands.

Conclusion: The results suggest that (18)F-fluorodeprenyl-D2 is a suitable PET radioligand for visualization of MAO-B activity in the human brain.

Keywords: 18F-fluorodeprenyl-D2; PET; monkey; monoamine oxidase.