Department of Pharmaceutical Analysis, National Institute of Pharmaceutical Education and Research (NIPER) - Ahmedabad, Gujarat, India.
Department of Pharmaceutical Analysis, National Institute of Pharmaceutical Education and Research (NIPER) - Ahmedabad, Gujarat, India.
J Chromatogr B Analyt Technol Biomed Life Sci. 2020 Feb 15;1139:121993. doi: 10.1016/j.jchromb.2020.121993. Epub 2020 Jan 18.
Flibanserin (FLB) is the first FDA approved drug showed to have significant activity against sexual desire disorder of premenopausal and postmenopausal women. Unfortunately, FLB is used as an adulterant in dietary supplement products as a performance enhancer in sports. Identification of FLB and its metabolites in the biological samples requires an authenticated analytical technique. The aim of this study was to identify N-oxide metabolite of FLB in microsomal and S9 human liver enzyme fractions, rat urine and feces. There are several N-oxide reported as genotoxic impurity or reactive metabolites based on position of N-oxide in piperazine ring. This study also describes the strategy to utilize degradation chemistry for isolation of N-oxide and its step-wise characterization. An LC-MS method has been developed and employed for identifying the N-oxide metabolite of FLB. The targeted N-oxide metabolite in the extracted ion chromatogram of the in vitro and in vivo samples has been confirmed by analyzing the changes in observed mass at m/z 407.1693. Major distinguished abundant ions at m/z 243.1104, 190.0974, 161.0705, 119.0601 confirmed the structure of the metabolite. This study will help to understand the oxidative potential of FLB in toxicokinetic study. The developed method can be useful to identify FLB or its N-oxide metabolite in dope testing in future. This is the first time to report a strategy to utilize degradation chemistry for N-oxide metabolite characterization. In this study, isolated N-oxidative degradation product was used to confirm N-oxide metabolite which was characterized by LC-MS through H/D exchange and structure was ensured by NMR spectroscopy (1H, COSY).
氟班色林(FLB)是第一种经美国食品和药物管理局(FDA)批准的用于治疗绝经前和绝经后妇女性欲障碍的药物。不幸的是,FLB 被用作膳食补充剂产品中的掺杂物,作为运动中的性能增强剂。在生物样本中鉴定 FLB 及其代谢物需要经过验证的分析技术。本研究的目的是鉴定 FLB 在人肝微粒体和 S9 酶部分、大鼠尿液和粪便中的 N-氧化物代谢物。根据哌嗪环中 N-氧化物的位置,有几种 N-氧化物被报道为遗传毒性杂质或反应性代谢物。本研究还描述了利用降解化学分离 N-氧化物及其逐步表征的策略。已经开发并采用 LC-MS 方法来鉴定 FLB 的 N-氧化物代谢物。通过分析观察到的质荷比 m/z 407.1693 处的质量变化,从体外和体内样品的提取离子色谱图中确认了靶向 N-氧化物代谢物。质荷比 m/z 243.1104、190.0974、161.0705、119.0601 处的主要显著丰度离子证实了代谢物的结构。这项研究将有助于了解 FLB 在毒代动力学研究中的氧化潜力。所开发的方法可用于未来在兴奋剂检测中鉴定 FLB 或其 N-氧化物代谢物。这是首次报道利用降解化学对 N-氧化物代谢物进行表征的策略。在这项研究中,使用分离的 N-氧化降解产物来确认通过 LC-MS 通过 H/D 交换和结构由 NMR 光谱(1H,COSY)确定的 N-氧化物代谢物。
