Cui Xiaoming, Thomas Ann, Gerlach Valerie, White Ronald E, Morrison Richard A, Cheng K-C
Department of Drug Metabolism and Pharmacokinetics, Schering-Plough Research Institute, 2015 Galloping Hill Road, Kenilworth K15-2700, NJ 07033, USA.
Biochem Pharmacol. 2008 Sep 1;76(5):680-9. doi: 10.1016/j.bcp.2008.06.016. Epub 2008 Jul 3.
A human pregnane X receptor (PXR) reporter-gene assay was established and validated using 19 therapeutic agents known to be clinical CYP3A4 inducers, 5 clinical non-inducers, and 6 known inducers in human hepatocytes. The extent of CYP3A4 induction (measured as RIF ratio in comparison to rifampicin) and EC50 was obtained from the dose-response curve. All of the clinical inducers (19/19) and human hepatocyte inducers (6/6) showed positive responses in the PXR assay. One out of five clinical non-inducers, pioglitazone, also showed a positive response. An additional series of 18 commonly used drugs with no reports of clinical induction was also evaluated as putative negative controls. Sixteen of these were negative (89%), whereas two of these, flutamide and haloperidol showed 16-fold (RIF ratio 0.79) and 10-fold (RIF ratio 0.48) maximal induction, respectively in the reporter-gene system. Flutamide and haloperidol were further demonstrated to cause CYP3A4 induction in human cryopreserved hepatocytes based on testosterone 6beta-hydroxylation activity. The induction potential index calculated based on the maximum RIF ratio, EC50, and in vivo maximum plasma concentration was used to predict the likelihood of CYP3A4 induction in humans. When the induction potential index is greater than 0.08, the compound is likely to cause induction in humans. A high-throughput screening strategy was developed based on the validation results at 1microM and 10microM for the same set of drugs. A RIF ratio of 0.4 was set as more practical screening cut-off to minimize the possibility of generating false positives. Thus, a tiered approach was implemented to use the human PXR reporter-gene assay from early lead optimization to late lead characterization in drug discovery.
利用19种已知为临床CYP3A4诱导剂的治疗药物、5种临床非诱导剂以及6种已知在人肝细胞中具有诱导作用的物质,建立并验证了一种人孕烷X受体(PXR)报告基因检测方法。从剂量反应曲线中获得CYP3A4诱导程度(以与利福平相比的利福平比值衡量)和半数有效浓度(EC50)。所有临床诱导剂(19/19)和人肝细胞诱导剂(6/6)在PXR检测中均显示出阳性反应。五种临床非诱导剂中的一种,即吡格列酮,也显示出阳性反应。另外还评估了18种无临床诱导报道的常用药物作为假定的阴性对照。其中16种为阴性(89%),而其中两种,氟他胺和氟哌啶醇,在报告基因系统中分别显示出16倍(利福平比值0.79)和10倍(利福平比值0.48)的最大诱导作用。基于睾酮6β-羟化活性,进一步证明氟他胺和氟哌啶醇可在人冷冻保存的肝细胞中引起CYP3A4诱导。基于最大利福平比值、EC50和体内最大血浆浓度计算的诱导潜力指数用于预测人类中CYP3A4诱导的可能性。当诱导潜力指数大于0.08时,该化合物可能在人类中引起诱导作用。基于对同一组药物在1μM和10μM浓度下的验证结果,开发了一种高通量筛选策略。将利福平比值0.4设定为更实用的筛选临界值,以尽量减少产生假阳性的可能性。因此,实施了一种分层方法,在药物发现中从早期先导物优化到晚期先导物表征使用人PXR报告基因检测方法。
