PBPK 模型:胃肠道中 CYP3A4 的表达对准确预测首过代谢有何作用?

IF 3.1 3区 医学 Q2 PHARMACOLOGY & PHARMACY CPT: Pharmacometrics & Systems Pharmacology Pub Date : 2024-10-02 DOI:10.1002/psp4.13249
Justine Henriot, André Dallmann, François Dupuis, Jérémy Perrier, Sebastian Frechen
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引用次数: 0

摘要

胃肠道首过代谢在生物利用度和药物相互作用中发挥着重要作用。基于生理学的药代动力学(PBPK)模型是从机理上整合这些过程的有力工具。然而,对消化道一过代谢进行正确的自下而上的预测具有挑战性,并且取决于各种模型参数,如酶的表达水平和肠粘膜基底层的通透性(Pmucosa)。本研究旨在探讨细胞色素 P450 (CYP) 3A4 的表达是否有助于使用 PBPK 模型预测首过效应,或者 Pmucosa 等其他因素是否会在 PBPK 模型中发挥额外的作用。为此,我们对人体胃肠道和肝脏中 CYP3A 的绝对表达量进行了系统回顾。将得出的 CYP3A4 表达谱和之前发表的两个表达谱应用于内置 PK-Sim® 的七种 CYP3A4 底物(阿芬太尼、阿普唑仑、非洛地平、咪达唑仑、西地那非、三唑仑和维拉帕米)的 PBPK 模型。对于每种化合物,都要评估是否可以仅根据综合 CYP3A4 表达谱充分预测首过代谢,或者是否需要对 Pmucosa 进行优化。评估标准是预测的研究间生物利用度和浓度-时间曲线下面积的精确度。结果发现,没有一种表达谱能充分说明胃肠道代谢的程度,而将 Pmucosa 作为化合物的特异性参数进行优化后,大多数模型的预测结果都有所改善。我们的研究结果表明,目前还不可能对胃肠道首过代谢进行纯粹的自下而上的预测,还必须考虑 Pmucosa 等化合物的特异性特征。
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PBPK modeling: What is the role of CYP3A4 expression in the gastrointestinal tract to accurately predict first-pass metabolism?

Gastrointestinal first-pass metabolism plays an important role in bioavailability and in drug-drug interactions. Physiologically-based pharmacokinetic (PBPK) modeling is a powerful tool to integrate these processes mechanistically. However, a correct bottom-up prediction of GI first-pass metabolism is challenging and depends on various model parameters like the level of enzyme expression and the basolateral intestinal mucosa permeability (Pmucosa). This work aimed to investigate if cytochrome P450 (CYP) 3A4 expression could help predict the first-pass effect using PBPK modeling or whether additional factors like Pmucosa do play additional roles using PBPK modeling. To this end, a systematic review of the absolute CYP3A expression in the human gastrointestinal tract and liver was conducted. The resulting CYP3A4 expression profile and two previously published profiles were applied to PBPK models of seven CYP3A4 substrates (alfentanil, alprazolam, felodipine, midazolam, sildenafil, triazolam, and verapamil) built-in PK-Sim®. For each compound, it was assessed whether first-pass metabolism could be adequately predicted based on the integrated CYP3A4 expression profile alone or whether an optimization of Pmucosa was required. Evaluation criteria were the precision of the predicted interstudy bioavailabilities and area under the concentration-time curves. It was found that none of the expression profiles provided upfront an adequate description of the extent of GI metabolism and that optimization of Pmucosa as a compound-specific parameter improved the prediction of most models. Our findings indicate that a pure bottom-up prediction of gastrointestinal first-pass metabolism is currently not possible and that compound-specific features like Pmucosa must be considered as well.

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CiteScore
5.00
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11.40%
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146
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8 weeks
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