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1. Development and characterization of a promising fluorine-18 labelled radiopharmaceutical for in vivo imaging of fatty acid amide hydrolase

Author

Justin W. Hicks, Neil Vasdev, Mariateresa Cipriano, Oleg Sadovski, Roger Raymond, José N. Nobrega, Sylvain Houle, Christopher J. Fowler, Alan A. Wilson, and Jun Parkes

Subjects

Fluorine Radioisotopes, Clinical Biochemistry, Pharmaceutical Science, Biochemistry, chemistry.chemical_compound, 0302 clinical medicine, Fatty acid amide hydrolase, Drug Discovery, Tissue Distribution, FAAH, Oxazoles, Chromatography, High Pressure Liquid, Medicine(all), chemistry.chemical_classification, 0303 health sciences, Molecular Structure, musculoskeletal, neural, and ocular physiology, Brain, Anandamide, Endocannabinoid system, Fluorine-18, Molecular Medicine, lipids (amino acids, peptides, and proteins), Preclinical imaging, psychological phenomena and processes, Stereochemistry, chemistry.chemical_element, Article, Amidohydrolases, 03 medical and health sciences, Animals, Humans, Tissue distribution, Radionuclide Imaging, Molecular Biology, 030304 developmental biology, Endocannabinoid, Radiosynthesis, Extramural, Organic Chemistry, Rats, Enzyme, PET, chemistry, nervous system, Fluorine, Rat, Carbamates, Radiopharmaceuticals, 030217 neurology & neurosurgery

Abstract

Fatty acid amide hydrolase (FAAH), the enzyme responsible for terminating signaling by the endocannabinoid anandamide, plays an important role in the endocannabinoid system, and FAAH inhibitors are attractive drugs for pain, addiction, and neurological disorders. The synthesis, radiosynthesis, and evaluation, in vitro and ex vivo in rat, of an (18)F-radiotracer designed to image FAAH using positron emission tomography (PET) is described. Fluorine-18 labelled 3-(4,5-dihydrooxazol-2-yl)phenyl (5-fluoropentyl)carbamate, [(18)F]5, was synthesized at high specific activity in a one-pot three step reaction using a commercial module with a radiochemical yield of 17-22% (from [(18)F]fluoride). In vitro assay using rat brain homogenates showed that 5 inhibited FAAH in a time-dependent manner, with an IC50 value of 0.82nM after a preincubation of 60min. Ex vivo biodistribution studies and ex vivo autoradiography in rat brain demonstrated that [(18)F]5 had high brain penetration with standard uptake values of up to 4.6 and had a regional distribution which correlated with reported regional FAAH enzyme activity. Specificity of binding to FAAH with [(18)F]5 was high (90%) as demonstrated by pharmacological challenges with potent and selective FAAH inhibitors and was irreversible as demonstrated by radioactivity measurements on homogenized brain tissue extracts. We infer from these results that [(18)F]5 is a highly promising candidate radiotracer with which to image FAAH in human subjects using PET and clinical studies are proceeding.