预测药物发现中 P-糖蛋白底物的药物相互作用风险。

Prediction of drug-drug interaction risk of P-glycoprotein substrate in drug discovery.

机构信息

Laboratory for Drug Discovery and Development, Shionogi & Co., Ltd., Osaka, Japan.

Laboratory for Bio-Drug Discovery, Shionogi & Co., Ltd., Osaka, Japan.

出版信息

Drug Metab Pharmacokinet. 2024 Jun;56:101008. doi: 10.1016/j.dmpk.2024.101008. Epub 2024 Mar 11.

DOI:10.1016/j.dmpk.2024.101008

PMID:38663183

Abstract

We aimed at predicting the drug-drug interaction (DDI) risk of P-glycoprotein (P-gp) substrates by using P-gp expressing LLC-PK1 cells and its knockout mice (KO). The area under the curve (AUC) of 16 marketed drugs and plasma concentration (C) of 207 screening compounds, with corrected efflux ratio (CER) ≥ 2, were compared between P-gp KO mice and wild type mice (WT). At permeability (Papp) ≥ 10 × 10 cm/s in parent LLC-PK1 cells, AUC ratios (KO/WT) and C ratios (KO/WT) of these compounds were within 3-fold. AUC ratios (KO/WT) of clinical P-gp substrates, with human AUC ratios with and without P-gp inhibitor administration ≥2, were higher than 8.7. These observations led us to establish a work-flow of P-gp substrate assessment with the threshold AUC ratio (KO/WT) ≥ 9 leading to a DDI risk of AUC ratio (human) ≥ 2. A screening compound showing high CER (=57.6) was found, but its AUC ratio (KO/WT) was 3.7, had been presumed to be a weak risk and its AUC ratio (human) was 1.2 in a later clinical DDI study. Our proposed workflow should be useful for predicting the DDI risk of P-gp substrates in drug discovery.

摘要

我们旨在通过使用表达 P-糖蛋白 (P-gp) 的 LLC-PK1 细胞及其敲除小鼠 (KO) 来预测 P-gp 底物的药物相互作用 (DDI) 风险。与野生型小鼠 (WT) 相比，对 16 种市售药物的曲线下面积 (AUC) 和 207 种筛选化合物的血浆浓度 (C)，校正外排比 (CER)≥2 的药物进行了比较。在亲本 LLC-PK1 细胞中通透性 (Papp)≥10×10cm/s 的情况下，这些化合物的 AUC 比值 (KO/WT) 和 C 比值 (KO/WT) 在 3 倍以内。具有临床 P-gp 底物的 AUC 比值 (KO/WT)，以及有无 P-gp 抑制剂给药的人体 AUC 比值≥2，均高于 8.7。这些观察结果使我们建立了一种 P-gp 底物评估的工作流程，以 AUC 比值 (KO/WT)≥9 作为 DDI 风险的阈值，导致 AUC 比值 (人体)≥2。发现一种 CER（=57.6）较高的筛选化合物，但 AUC 比值 (KO/WT) 为 3.7，此前被认为是低风险，在随后的临床 DDI 研究中其 AUC 比值（人体）为 1.2。我们提出的工作流程应有助于预测药物发现中 P-gp 底物的 DDI 风险。

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预测药物发现中 P-糖蛋白底物的药物相互作用风险。

Prediction of drug-drug interaction risk of P-glycoprotein substrate in drug discovery.

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