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环孢菌素抑制肝和肠道 CYP3A4、摄取和外排转运体:PBPK 模型在药物相互作用潜力评估中的应用。

Cyclosporine inhibition of hepatic and intestinal CYP3A4, uptake and efflux transporters: application of PBPK modeling in the assessment of drug-drug interaction potential.

机构信息

Centre for Applied Pharmacokinetic Research School of Pharmacy and Pharmaceutical Sciences, University of Manchester, Oxford Road, M13 9PT, Manchester, UK.

出版信息

Pharm Res. 2013 Mar;30(3):761-80. doi: 10.1007/s11095-012-0918-y. Epub 2012 Nov 22.

DOI:10.1007/s11095-012-0918-y
PMID:23179780
Abstract

PURPOSE

To apply physiologically-based pharmacokinetic (PBPK) modeling to investigate the consequences of reduction in activity of hepatic and intestinal uptake and efflux transporters by cyclosporine and its metabolite AM1.

METHODS

Inhibitory potencies of cyclosporine and AM1 against OATP1B1, OATP1B3 and OATP2B1 were investigated in HEK293 cells +/- pre-incubation. Cyclosporine PBPK model implemented in Matlab was used to assess interaction potential (+/- metabolite) against different processes (uptake, efflux and metabolism) in liver and intestine and to predict quantitatively drug-drug interaction with repaglinide.

RESULTS

Cyclosporine and AM1 were potent inhibitors of OATP1B1 and OATP1B3, IC(50) ranging from 0.019-0.093 μM following pre-incubation. Cyclosporine PBPK model predicted the highest interaction potential against liver uptake transporters, with a maximal reduction of >70% in OATP1B1 activity; the effect on hepatic efflux and metabolism was minimal. In contrast, 80-97% of intestinal P-gp and CYP3A4 activity was reduced due to the 50-fold higher cyclosporine enterocytic concentrations relative to unbound hepatic inlet. The inclusion of AM1 resulted in a minor increase in the predicted maximal reduction of OATP1B1/1B3 activity. Good predictability of cyclosporine-repaglinide DDI and the impact of dose staggering are illustrated.

CONCLUSIONS

This study highlights the application of PBPK modeling for quantitative prediction of transporter-mediated DDIs with concomitant consideration of P450 inhibition.

摘要

目的

应用基于生理学的药代动力学(PBPK)模型来研究环孢素及其代谢物 AM1 对肝摄取和肠外排转运体活性降低的影响。

方法

在 HEK293 细胞中,通过预孵育的方式,研究环孢素和 AM1 对 OATP1B1、OATP1B3 和 OATP2B1 的抑制作用。使用在 Matlab 中实现的环孢素 PBPK 模型,评估代谢物对肝脏和肠道中不同过程(摄取、外排和代谢)的相互作用潜力,并预测与瑞格列奈的药物相互作用。

结果

环孢素和 AM1 是 OATP1B1 和 OATP1B3 的强效抑制剂,预孵育后 IC50 范围为 0.019-0.093 μM。环孢素 PBPK 模型预测对肝脏摄取转运体的相互作用潜力最高,OATP1B1 活性最大降低超过 70%;对肝脏外排和代谢的影响最小。相比之下,由于肠上皮细胞中环孢素浓度比未结合的肝入口高 50 倍,80-97%的肠 P-gp 和 CYP3A4 活性降低。由于 AM1 的包含,预测 OATP1B1/1B3 活性最大降低略有增加。阐明了环孢素-瑞格列奈 DDI 的良好预测性和剂量交错的影响。

结论

本研究强调了 PBPK 模型在定量预测伴随 P450 抑制的转运体介导的 DDI 中的应用。

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