细胞色素 P450 诱导机制在 HepaRG 核激素受体基因敲除细胞中的去卷积。
Deconvolution of Cytochrome P450 Induction Mechanisms in HepaRG Nuclear Hormone Receptor Knockout Cells.
机构信息
Departments of Drug Metabolism and Pharmacokinetics (L.C.P., R.L., K.G., L.B., C.P.) and Early Chemical and Preclinical Safety (P.H.), Merck KGaA, Darmstadt, Germany; Department of Physiology and Pharmacology, Karolinska Institutet, Stockholm, Sweden (L.C.P., V.M.L.); and Research & Development, In Vitro Safety Systems, MilliporeSigma, St. Louis, Missouri (D.T.).
Departments of Drug Metabolism and Pharmacokinetics (L.C.P., R.L., K.G., L.B., C.P.) and Early Chemical and Preclinical Safety (P.H.), Merck KGaA, Darmstadt, Germany; Department of Physiology and Pharmacology, Karolinska Institutet, Stockholm, Sweden (L.C.P., V.M.L.); and Research & Development, In Vitro Safety Systems, MilliporeSigma, St. Louis, Missouri (D.T.)
出版信息
Drug Metab Dispos. 2021 Aug;49(8):668-678. doi: 10.1124/dmd.120.000333. Epub 2021 May 25.
Pregnane X receptor (PXR), constitutive androstane receptor (CAR), and PXR/CAR knockout (KO) HepaRG cells, as well as a PXR reporter gene assay, were used to investigate the mechanism of CYP3A4 and CYP2B6 induction by prototypical substrates and a group of compounds from the Merck KGaA oncology drug discovery pipeline. The basal and inducible gene expression of CYP3A4 and CYP2B6 of nuclear hormone receptor (NHR) KO HepaRG relative to control HepaRG was characterized. The basal expression of CYP3A4 was markedly higher in the PXR (10-fold) and CAR (11-fold) KO cell lines compared with control HepaRG, whereas inducibility was substantially lower. Inversely, basal expression of CYP3A4 in PXR/CAR double KO (dKO) was low (10-fold reduction). Basal CYP2B6 expression was high in PXR KO (9-fold) cells which showed low inducibility, whereas the basal expression remained unchanged in CAR and dKO cell lines compared with control cells. Most of the test compounds induced CYP3A4 and CYP2B6 via PXR and, to a lesser extent, via CAR. Furthermore, other non-NHR-driven induction mechanisms were implicated, either alone or in addition to NHRs. Notably, 5 of the 16 compounds (31%) that were PXR inducers in HepaRG did not activate PXR in the reporter gene assay, illustrating the limitations of this system. This study indicates that HepaRG is a highly sensitive system fit for early screening of cytochrome P450 (P450) induction in drug discovery. Furthermore, it shows the applicability of HepaRG NHR KO cells as tools to deconvolute mechanisms of P450 induction using novel compounds representative for oncology drug discovery. SIGNIFICANCE STATEMENT: This work describes the identification of induction mechanisms of CYP3A4 and CYP2B6 for an assembly of oncology drug candidates using HepaRG nuclear hormone receptor knockout and displays its advantages compared to a pregnane X receptor reporter gene assay. With this study, risk assessment of drug candidates in early drug development can be improved.
利用孕烷 X 受体 (PXR)、组成型雄烷受体 (CAR) 和 PXR/CAR 基因敲除 (KO) HepaRG 细胞,以及 PXR 报告基因检测,研究了典型底物和一组来自默克KGaA 肿瘤药物发现管道的化合物对 CYP3A4 和 CYP2B6 的诱导机制。与对照 HepaRG 相比,鉴定了核激素受体 (NHR) KO HepaRG 中 CYP3A4 和 CYP2B6 的基础和诱导基因表达。与对照 HepaRG 相比,PXR (10 倍) 和 CAR (11 倍) KO 细胞系中 CYP3A4 的基础表达明显更高,而诱导能力则大大降低。相反,PXR/CAR 双基因敲除 (dKO) 的基础 CYP3A4 表达水平较低 (降低 10 倍)。PXR KO (9 倍) 细胞中 CYP2B6 的基础表达较高,其诱导能力较低,而 CAR 和 dKO 细胞系与对照细胞相比,基础表达保持不变。大多数受试化合物通过 PXR 诱导 CYP3A4 和 CYP2B6,部分通过 CAR 诱导。此外,还涉及其他非 NHR 驱动的诱导机制,单独或与 NHR 一起起作用。值得注意的是,在 HepaRG 中,16 种化合物中有 5 种 (31%) 是 PXR 诱导剂,但在报告基因检测中并未激活 PXR,这说明了该系统的局限性。本研究表明,HepaRG 是一种高度敏感的系统,适用于药物发现中早期筛选细胞色素 P450 (P450) 的诱导。此外,它还表明 HepaRG NHR KO 细胞可作为工具,用于使用代表肿瘤药物发现的新型化合物来剖析 P450 诱导的机制。意义陈述:这项工作描述了使用 HepaRG 核激素受体敲除鉴定一组肿瘤候选药物对 CYP3A4 和 CYP2B6 的诱导机制,并与 PXR 报告基因检测进行了比较。通过这项研究,可以改善早期药物开发中候选药物的风险评估。
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