Department of Pharmaceutical Analysis, National Institute of Pharmaceutical Education and Research (NIPER), S.A.S. Nagar, Punjab, 160 062, India.
Drug Metabolism and Pharmacokinetics, Aurigene Discovery Technologies Limited, Hyderabad, Telangana, 500 090, India.
J Mass Spectrom. 2019 Sep;54(9):738-749. doi: 10.1002/jms.4424. Epub 2019 Aug 30.
Black pepper, though commonly employed as a spice, has many medicinal properties. It consists of volatile oils, alkaloids, pungent resins, etc., of which piperine is a major constituent. Though safe at low doses, piperine causes alteration in the activity of drug metabolising enzymes and transporters at high dose and is known to precipitate liver toxicity. It has a potential to form reactive metabolite(s) (RM) owing to the presence of structural alerts, such as methylenedioxyphenyl (MDP), α, β-unsaturated carbonyl group (Michael acceptor), and piperidine. The present study was designed to detect and characterize stable and RM(s) of piperine formed on in vitro incubation with human liver microsomes. The investigation of RMs was done with the aid of trapping agents, viz, glutathione (GSH) and N-acetylcysteine (NAC). The samples were analysed by ultra-high performance liquid chromatography coupled with high resolution mass spectrometry (UHPLC-HRMS) using Thermo Scientific Q Exactive Plus Orbitrap. Full scan MS followed by data-dependent MS (Full MS-ddMS ) mode was used to establish mass spectrometric fragmentation pathways of protonated piperine and its metabolites. In total, four stable metabolites and their isomers (M1a-c, M2a-b, M3a-c, and M4a-b) were detected. Their formation involved removal of carbon (3, M1a-c), hydroxylation (2, M2a-b), hydroxylation with hydrogenation (3, M3a-c), and dehydrogenation (2, M4a-b). Out of these metabolites, M1, M2, and M3 are reported earlier in the literature, but their isomers and two M4 variants are novel. In addition, six novel conjugates of RMs, including three GSH conjugates of m/z 579 and three NAC conjugates of m/z 435, were also observed.
黑胡椒虽然常被用作香料,但具有许多药用特性。它包含挥发性油、生物碱、刺激性树脂等,其中胡椒碱是主要成分。胡椒碱在低剂量时是安全的,但在高剂量时会改变药物代谢酶和转运体的活性,已知会导致肝毒性。由于存在结构警示剂,如亚甲二氧基苯基(MDP)、α、β-不饱和羰基(迈克尔受体)和哌啶,它具有形成反应性代谢物(RM)的潜力。本研究旨在检测和表征胡椒碱在人肝微粒体体外孵育时形成的稳定和 RM(s)。使用谷胱甘肽(GSH)和 N-乙酰半胱氨酸(NAC)等捕获剂研究 RM。使用 Thermo Scientific Q Exactive Plus Orbitrap 进行超高效液相色谱-高分辨率质谱联用(UHPLC-HRMS)对样品进行分析。采用全扫描 MS 结合数据依赖 MS(Full MS-ddMS)模式,建立质子化胡椒碱及其代谢物的质谱裂解途径。总共检测到四种稳定的代谢物及其异构体(M1a-c、M2a-b、M3a-c 和 M4a-b)。它们的形成涉及到碳的去除(3,M1a-c)、羟化(2,M2a-b)、羟化加氢化(3,M3a-c)和脱氢(2,M4a-b)。在这些代谢物中,M1、M2 和 M3 以前在文献中有报道,但它们的异构体和两种 M4 变体是新的。此外,还观察到六种 RM 的新型缀合物,包括 m/z 579 的三个 GSH 缀合物和 m/z 435 的三个 NAC 缀合物。
