Metabolism studies of 4'Cl-CUMYL-PINACA, 4'F-CUMYL-5F-PINACA, and 4'F-CUMYL-5F-PICA using human hepatocytes and LC-QTOF-MS analysis.
Darta StalbergaSarah IngvarssonGhidaa BessaLisa MaasSvante VikingssonMattias PerssonCaitlyn NormanHenrik GréenPublished in: Basic & clinical pharmacology & toxicology (2022)
4'Cl-cumyl-PINACA (SGT-157), 4'F-cumyl-5F-PINACA (4F-cumyl-5F-PINACA, SGT-65), and 4'F-cumyl-5F-PICA (4F-cumyl-5F-PICA, SGT-64) are a series of new halogenated cumyl synthetic cannabinoid receptor agonists (SCRAs). Due to rapid metabolism, monitoring and screening for SCRAs in biological matrices requires identification of their metabolites. It is an essential tool for estimating their spread and fluctuations on the global illicit market. The purpose of this study was to identify human biotransformations of 4'Cl-cumyl-PINACA, 4'F-cumyl-5F-PINACA, and 4'F-cumyl-5F-PICA in vitro and characterize for the first time the metabolic pathways of halogenated cumyl SCRAs. 4'Cl-cumyl-PINACA, 4'F-cumyl-5F-PINACA, and 4'F-cumyl-5F-PICA were incubated with human hepatocytes in duplicates for 0h, 1h, 3h, and 5h. The supernatants were analysed in data-dependent acquisition on a UHPLC-QToF-MS and the potential metabolites were tentatively identified. A total of 11 metabolites were detected for 4'Cl-cumyl-PINACA, 21 for 4'F-cumyl-5F-PINACA, and 10 for 4'F-cumyl-5F-PICA. The main biotransformations were oxidative defluorination, followed by hydroxylation with dehydrogenation, N-dealkylation, dihydrodiol formation, and glucuronidation. Hydroxylations were most common at the tail moieties with higher abundancy for indole than indazole compounds. N-dealkylations were more common for fluorinated tail chain compounds than the non-fluorinated 4'Cl-cumyl-PINACA. In conclusion, many metabolites retained halogen groups at the cumyl moieties which, in various combinations, may be suitable as analytical biomarkers.