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犬 P-糖蛋白缺陷型 MDCK II 细胞系的特征鉴定和验证及其在外排底物筛选中的应用。

Characterization and Validation of Canine P-Glycoprotein-Deficient MDCK II Cell Lines for Efflux Substrate Screening.

机构信息

Drug Metabolism & Pharmacokinetics-Bioanalytics LU, AbbVie Deutschland GmbH & Co KG, Knollstraße 50, 67061, Ludwigshafen, Germany.

Current Address: Global Marketing and Sales, B. Braun Melsungen AG, Plant P Pfieffewiesen, 34212, Melsungen, Germany.

出版信息

Pharm Res. 2020 Sep 11;37(10):194. doi: 10.1007/s11095-020-02895-9.

DOI:10.1007/s11095-020-02895-9
PMID:32918191
Abstract

PURPOSE

We characterized three canine P-gp (cP-gp) deficient MDCKII cell lines. Their relevance for identifying efflux transporter substrates and predicting limitation of brain penetration were evaluated. In addition, we discuss how compound selection can be done in drug discovery by using these cell systems.

METHOD

hMDR1, hBCRP-transfected, and non-transfected MDCKII ZFN cells (all with knock-down of endogenous cP-gp) were used for measuring permeability and efflux ratios for substrates. The compounds were also tested in MDR1_Caco-2 and BCRP_Caco-2, each with a double knock-out of BCRP/MRP2 or MDR1/MRP2 transporters respectively. Efflux results were compared between the MDCK and Caco-2 models. Furthermore, in vitro MDR1_ZFN efflux data were correlated with in vivo unbound drug brain-to-plasma partition coefficient (K,).

RESULTS

MDR1 and BCRP substrates are correctly classified and robust transporter affinities with control substrates are shown. Cell passage mildly influenced mRNA levels of transfected transporters, but the transporter activity was proven stable for several years. The MDCK and Caco-2 models were in high consensus classifying same efflux substrates. Approx. 80% of enlisted substances were correctly predicted with the MDR1_ZFN model for brain penetration.

CONCLUSION

cP-gp deficient MDCKII ZFN models are reliable tools to identify MDR1 and BCRP substrates and useful for predicting efflux liability for brain penetration.

摘要

目的

我们对三种犬源 P-糖蛋白(cP-gp)缺失的 MDCKII 细胞系进行了特征描述。评估了它们在鉴定外排转运体底物和预测脑穿透受限方面的相关性。此外,我们还讨论了如何通过使用这些细胞系统在药物发现中进行化合物选择。

方法

使用 hMDR1、hBCRP 转染和非转染的 MDCKII ZFN 细胞(均敲低内源性 cP-gp)测量底物的通透性和外排比。还在 MDR1_Caco-2 和 BCRP_Caco-2 中测试了这些化合物,这两种细胞均分别敲除了 BCRP/MRP2 或 MDR1/MRP2 转运体。比较了 MDCK 和 Caco-2 模型之间的外排结果。此外,还将体外 MDR1_ZFN 外排数据与体内未结合药物脑-血浆分配系数(K,)进行了相关性分析。

结果

MDR1 和 BCRP 底物被正确分类,并且显示出与对照底物的稳健转运体亲和力。细胞传代轻度影响转染转运体的 mRNA 水平,但转运体活性在几年内保持稳定。MDCK 和 Caco-2 模型在分类相同外排底物方面高度一致。MDR1_ZFN 模型对 80%左右的登记物质的脑穿透具有正确的预测能力。

结论

cP-gp 缺失的 MDCKII ZFN 模型是鉴定 MDR1 和 BCRP 底物的可靠工具,对预测脑穿透的外排易感性有用。

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