Ospemifene metabolism in humans in vitro and in vivo: metabolite identification, quantitation, and CYP assignment of major hydroxylations.

Drug Metabolism and Drug Interactions Pub Date : 2013-01-01 DOI:10.1515/dmdi-2013-0016

Ari Tolonen, Pasi Koskimies, Miia Turpeinen, Jouko Uusitalo, Risto Lammintausta, Olavi Pelkonen

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引用次数: 12

Abstract

Background: The metabolism of ospemifene, a novel nonsteroidal selective estrogen receptor modulator, was investigated as part of its development.

Methods: Metabolite identification, tentative quantitation, and CYP assignment of ospemifene were performed in human liver microsomes or homogenate incubations and in plasma samples from volunteer humans. The potential contributions of CYP enzymes were determined by recombinant human CYPs. Metabolite identification and tentative quantification were performed by liquid chromatography-mass spectrometry.

Results: The relative abundances of metabolites produced were dependent on ospemifene concentration and liver preparation, but the largest quantities of 4- and 4'-hydroxy-ospemifene (and their glucuronides in smaller quantities) were produced in human liver microsomes at low ospemifene concentrations. Other metabolites were detected in in vitro incubation with human liver including a direct glucuronide of ospemifene and some metabolites with only minor abundance. In human plasma samples, 4-hydroxy-ospemifene was the most abundant metabolite, representing about 25% of the abundance of the parent compound. All the other metabolites detected in plasma, including 4'-hydroxy-ospemifene, represented <7% of the abundance of ospemifene. Several CYP enzymes participated in 4-hydroxylation, including CYP2C9, CYP2C19, CYP2B6, and CYP3A4, whereas CYP3A enzymes were the only ones to catalyze 4'-hydroxylation.

Conclusions: In vitro incubations with liver preparations provided a rather reliable starting point in the search for potential metabolites in clinical settings. The in vitro metabolite profile is informative for the in vivo metabolite profile, especially regarding the major hydroxylated metabolites. However, it is anticipated that extended in vivo exposures may result in an increased production of more distal metabolites from major metabolites.

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人体内体外Ospemifene代谢:主要羟基化的代谢物鉴定、定量和CYP分配。

背景:ospemifene是一种新型的非甾体选择性雌激素受体调节剂，研究了其代谢过程。方法:在人肝微粒体或匀浆培养和志愿者血浆样本中进行ospemifene的代谢物鉴定、初步定量和CYP鉴定。用重组人CYP确定了CYP酶的潜在作用。采用液相色谱-质谱联用技术对代谢物进行鉴定和初步定量。结果:产生的代谢物的相对丰度依赖于ospemifene浓度和肝脏制剂，但在低ospemifene浓度下，人肝微粒体中产生的4-和4'-羟基ospemifene数量最多(其葡萄糖醛酸苷含量较少)。在与人肝脏的体外培养中检测到其他代谢物，包括ospemifene的直接葡萄糖醛酸盐和一些仅少量丰度的代谢物。在人血浆样品中，4-羟基-卵磷脂是最丰富的代谢物，约占母体化合物丰度的25%。血浆中检测到的所有其他代谢物，包括4'-羟基-ospemifene，都代表了结论:肝脏制剂体外培养为临床环境中寻找潜在代谢物提供了一个相当可靠的起点。体外代谢物谱可为体内代谢物谱提供信息，特别是关于主要羟基化代谢物。然而，预计体内暴露时间的延长可能导致主要代谢物中更多远端代谢物的产生增加。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Drug Metabolism and Drug Interactions

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