Dunne Christine E, Bushee Jennifer L, Argikar Upendra A
Department of Chemistry and Chemical Biology, College of Sciences, Northeastern University.
Drug Metab Pharmacokinet. 2013;28(6):453-61. doi: 10.2133/dmpk.dmpk-13-rg-010. Epub 2013 Apr 23.
Bromopride (BRP) has been utilized clinically for treatment of nausea, vomiting and gastro-intestinal motility disorders. The pharmacokinetics of BRP have been characterized in dogs and humans; however, the metabolic profile of BRP has not been well studied. The present study was aimed at better understanding BRP metabolism across species. We investigated biotransformation of BRP in mouse, rat, rabbit, dog, monkey, and human hepatocytes with the help of LC-MS(n) and accurate mass measurement. Mice, rats, dogs, and monkeys are relevant in drug discovery and development as pre-clinical species to be compared with humans, whereas rabbits were efficacy models for BRP. Overall, twenty metabolites of BRP were identified across hepatocytes from the six species. Monkeys offered the most coverage for humans, in terms of number of metabolites identified. Interestingly, M14, an N-sulfate metabolite of BRP, was identified as a human-specific metabolite. BRP metabolism had only been reported in dog plasma and urine, historically. Our investigation is the first documentation of in vitro metabolism of BRP in the six species reported here. Metabolites M1, M2, M4-M10, M12, M13, and M15-M20 have not been previously reported. In summary, this report documents seventeen metabolites of BRP for the first time, thus providing a deeper insight into the biotransformation of BRP.
溴必利(BRP)已在临床上用于治疗恶心、呕吐和胃肠动力障碍。BRP的药代动力学已在犬类和人类中得到表征;然而,BRP的代谢概况尚未得到充分研究。本研究旨在更好地了解BRP在不同物种中的代谢情况。我们借助液相色谱-质谱联用仪(LC-MS(n))和精确质量测量,研究了BRP在小鼠、大鼠、兔子、犬类、猴子和人类肝细胞中的生物转化。小鼠、大鼠、犬类和猴子作为临床前物种,在药物发现和开发中与人类相关,可用于比较,而兔子是BRP的药效学模型。总体而言,在这六个物种的肝细胞中鉴定出了20种BRP代谢产物。就鉴定出的代谢产物数量而言,猴子对人类的覆盖程度最高。有趣的是,BRP的一种N-硫酸盐代谢产物M14被鉴定为人类特有的代谢产物。历史上,BRP的代谢仅在犬类血浆和尿液中有报道。我们的研究是首次报道此处所述六个物种中BRP的体外代谢情况。代谢产物M1、M2、M4-M10、M12、M13和M15-M20此前尚未见报道。总之,本报告首次记录了BRP的17种代谢产物,从而更深入地了解了BRP的生物转化过程。
