人源化肝脏嵌合小鼠在预测肝脏有机阴离子转运多肽 1B (OATP1B) 介导的临床药物相互作用中的实用性

IF 4.4 3区 医学 Q1 PHARMACOLOGY & PHARMACY
Bo Feng, Guiqing Liang, Craig Zetterberg, Shaolan Li, Hui Huang, John Williams, Hong Gao, Yoshio Morikawa, Sanjeev Kumar
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引用次数: 0

摘要

人们越来越认识到转运体对药物药代动力学的影响,通过调节转运体而产生的药物间相互作用(DDI)可能导致临床不良反应。有机阴离子转运多肽 1B(OATP1B)是人体肝脏特异性吸收转运体,可以转运包括他汀类药物在内的多种底物。由于底物特异性和转运体丰度水平的物种差异,利用临床前动物模型预测 OATP1B 介导的 DDIs 是一项挑战。PXB 小鼠是具有人源化肝脏的嵌合型小鼠,其肝脏高度填充了人类肝细胞,已被广泛用于药物发现过程中的药物代谢和药代动力学研究。在本研究中,我们测定了与强效 OATP1B 特异性抑制剂利福平联合给药后,十种 OATP1B 底物在 PXB 小鼠体内的暴露增加量(血液 AUC 和 Cmax)。然后将 PXB 小鼠的这些数据与在人体中观察到的 OATP1B 底物与单剂量利福平之间的 DDIs 进行了比较。我们的研究结果表明,OATP1B 底物与利福平在 PXB-小鼠体内的 DDI 与临床观察到的 DDI 具有可比性。由于大多数 OATP1B 底物都会通过 CYPs 代谢和/或成为 P 糖蛋白(P-gp)的底物,因此我们以 CsA 和吉非罗齐作为肇事者,进一步验证了 PXB 小鼠在预测涉及 OATP1B、CYPs 和 P-gp 抑制的复杂 DDI 的实用性。总之,这些数据支持具有人源化肝脏的嵌合小鼠可作为预测人类肝脏 OATP1B 介导的 DDI 的有用工具。意义声明 评估了具有人源化肝脏的 PXB 小鼠预测人体中 OATP1B 介导的药物间相互作用(DDIs)的能力。十种 OATP1B 底物与利福平(一种 OATP1B 抑制剂)在 PXB 小鼠体内的血浆暴露增加与在人类体内观察到的血浆暴露增加有很好的相关性。更重要的是,PXB-小鼠可以预测复杂的 DDIs,包括对人体中 OATP1B、CYPs 和 P-gp 的抑制。PXB 小鼠是评估 OATP1B 介导的临床 DDI 的一种很有前途的有用工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Utility of Chimeric Mice with Humanized Livers for Predicting Hepatic Organic Anion-Transporting Polypeptide 1B-Mediated Clinical Drug-Drug Interactions.

The influence of transporters on the pharmacokinetics of drugs is being increasingly recognized, and drug-drug interactions (DDIs) via modulation of transporters could lead to clinical adverse events. Organic anion-transporting polypeptide 1B (OATP1B) is a liver-specific uptake transporter in humans that can transport a broad range of substrates, including statins. It is a challenge to predict OATP1B-mediated DDIs using preclinical animal models because of species differences in substrate specificity and abundance levels of transporters. PXB-mice are chimeric mice with humanized livers that are highly repopulated with human hepatocytes and have been widely used for drug metabolism and pharmacokinetics studies in drug discovery. In the present study, we measured the exposure increases [blood AUC (area under the blood/plasma concentration-time curve) and Cmax] of 10 OATP1B substrates in PXB-mice upon coadministration with rifampin, a potent OATP1B specific inhibitor. These data in PXB-mice were then compared with the observed DDIs between OATP1B substrates and single-dose rifampin in humans. Our findings suggest that the DDIs between OATP1B substrates and rifampin in PXB-mouse are comparable with the observed DDIs in the clinic. Since most OATP1B substrates are metabolized by cytochromes P450 (CYPs) and/or are substrates of P-glycoprotein (P-gp), we further validated the utility of PXB-mice to predict complex DDIs involving inhibition of OATP1B, CYPs, and P-gp using cyclosporin A (CsA) and gemfibrozil as perpetrators. Overall, the data support that the chimeric mice with humanized livers could be a useful tool for the prediction of hepatic OATP1B-mediated DDIs in humans. SIGNIFICANCE STATEMENT: The ability of PXB-mouse with humanized liver to predict organic anion-transporting polypeptide 1B (OATP1B)-mediated drug-drug interactions (DDIs) in humans was evaluated. The blood exposure increases of 10 OATP1B substrates with rifampin, an OATP1B inhibitor, in PXB-mice have a good correlation with those observed in humans. More importantly, PXB-mice can predict complex DDIs, including inhibition of OATP1B, cytochromes P450 (CYPs), and P-glycoprotein (P-gp) in humans. PXB-mice are a promising useful tool to assess OATP1B-mediated clinical DDIs.

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来源期刊
CiteScore
6.50
自引率
12.80%
发文量
128
审稿时长
3 months
期刊介绍: An important reference for all pharmacology and toxicology departments, DMD is also a valuable resource for medicinal chemists involved in drug design and biochemists with an interest in drug metabolism, expression of drug metabolizing enzymes, and regulation of drug metabolizing enzyme gene expression. Articles provide experimental results from in vitro and in vivo systems that bring you significant and original information on metabolism and disposition of endogenous and exogenous compounds, including pharmacologic agents and environmental chemicals.
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