1. New transient receptor potential vanilloid subfamily member 1 positron emission tomography radioligands: synthesis, radiolabeling, and preclinical evaluation
- Author
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Larry V. Pearce, Guy Bormans, Peter M. Blumberg, Jan Cleynhens, Daisy van Veghel, Ian A DeAndrea-Lazarus, Alfons Verbruggen, and Koen Van Laere
- Subjects
Male ,Fluorine Radioisotopes ,Physiology ,Cognitive Neuroscience ,TRPV1 ,Drug Evaluation, Preclinical ,TRPV Cation Channels ,Plasma protein binding ,Pharmacology ,Biochemistry ,Transient receptor potential channel ,Mice ,Radioligand Assay ,In vivo ,medicine ,Animals ,Humans ,Carbon Radioisotopes ,medicine.diagnostic_test ,Chemistry ,musculoskeletal, neural, and ocular physiology ,Antagonist ,Cell Biology ,General Medicine ,nervous system ,Positron emission tomography ,Positron-Emission Tomography ,lipids (amino acids, peptides, and proteins) ,Preclinical imaging ,Protein Binding - Abstract
The transient receptor potential vanilloid subfamily member 1 (TRPV1) cation channel is known to be involved in pain nociception and neurogenic inflammation, and accumulating evidence suggests that it plays an important role in several central nervous system (CNS)-related disorders. TRPV1-specific positron emission tomography (PET) radioligands can serve as powerful tools in TRPV1-related (pre)clinical research and drug design. We have synthesized several potent TRPV1 antagonists and accompanying precursors for radiolabeling with carbon-11 or fluorine-18. The cinnamic acid derivative [(11)C]DVV24 and the aminoquinazoline [(18)F]DVV54 were successfully synthesized, and their biological behavior was studied. In addition, the in vivo behavior of a (123)I-labeled analogue of iodo-resiniferatoxin (I-RTX), a well-known TRPV1 antagonist, was evaluated. The binding affinities of DVV24 and DVV54 for human TRPV1 were 163 ± 28 and 171 ± 48 nM, respectively. [(11)C]DVV24, but not [(18)F]DVV54 or (123)I-RTX, showed retention in the trigeminal nerve, known to abundantly express TRPV1. Nevertheless, it appears that ligands with higher binding affinities will be required to allow in vivo imaging of TRPV1 via PET.
- Published
- 2013