LAUSR

Abstract A 1,2,4-oxadiazole ring-containing compound DS-8500a was developed as a novel G protein-coupled receptor 119 agonist. In vivo metabolic fates of [14C]DS-8500a differently radiolabeled in the benzene ring or benzamide side carbon in rats were investigated. Differences in mass balances were observed, primarily because after the oxadiazole ring-opening and subsequent ring-cleavage small-molecule metabolites containing the benzene side were excreted in the urine, while those containing the benzamide side were excreted in the bile. DS-8500a was detected at trace levels in urine and bile, demonstrating extensive metabolism prior to urinary/biliary excretion. At least 16 metabolite structures were proposed in plasma, urine, and bile samples from rats treated with [14C]DS-8500a. Formation of a ring-opened metabolite (reduced DS-8500a) in hepatocytes of humans, monkeys, and rats was confirmed; however, it was not affected by typical inhibitors of cytochrome P450s, aldehyde oxidases, or carboxylesterases in human hepatocytes. Extensive formation of the ring-opened metabolite was observed in human liver microsomes fortified with an NADPH-generating system under anaerobic conditions. These results suggest an in vivo unique reductive metabolism of DS-8500a is mediated by human non-cytochrome P450 enzymes.