Being highly potent, New Synthetic Opioids (NSO) have become a public health concern. Little is known though about the metabolism and toxicokinetics (TK) of many of the non fentanyl NSO such as U-47700. Obtaining such data in humans is challenging and so we investigated if pigs were a suitable model species as TK model for U-47700. The metabolic fate of U-47700 was elucidated after intravenous administration to one pig in vivo and results were compared to metabolic patterns formed by different other in vitro systems (human and pig liver microsomes, human liver S9 fraction) and compared to rat and human in vivo data. Furthermore, monooxygenase isozymes responsible for the major metabolic steps were elucidated. In total, 12 phase I and 8 phase II metabolites of U-47700 could be identified. The predominant reactions were N-demethylation, hydroxylation, and combination of them followed by glucuronidation or sulfation. The most predominant monooxygenase catalyzed conversions were N-demethylation, and hydroxylation by CYP3A4 and 2B6, and FMO3 catalyzed N-oxidation. Similar main phase I metabolites were found in vitro as compared to in vivo (pig/human). The metabolic pattern elucidated in the pig was comparable to human in vivo data. Thus, pigs seem to be a suitable animal model for metabolism and further TK of U-47700.
Keywords: LC-HR-MS/MS; New synthetic opioids; Pigs; U-47700; Urinary metabolic patterns.
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