Departments of Drug Metabolism and Pharmacokinetics (H.W., H.L., J.S.H., C.E.C.A.H.), Translational Oncology (S.E.G., B.A.), Clinical Pharmacokinetics (N.B.), Oncology Biomarkers (W.C.D., E.E.K.), Exploratory Clinical Development (C.P., M.M.), Safety Assessment (R.E.), Medicinal Chemistry (J.A.F.), and Early Discovery Biochemistry (W.J.F.), Genentech, Inc., South San Francisco, California; South Texas Accelerated Research Therapeutics, LLC, San Antonio, Texas (A.W.T.); and Sarah Cannon Research Institute/Tennessee Oncology, Nashville, Tennessee (J.R.I.).
Drug Metab Dispos. 2013 Dec;41(12):2104-13. doi: 10.1124/dmd.113.053926. Epub 2013 Sep 16.
The application of modeling and simulation techniques is increasingly common in the preclinical stages of the drug development process. GDC-0917 [(S)-1-((S)-2-cyclohexyl-2-((S)-2-(methylamino)propanamido)acetyl)-N-(2-(oxazol-2-yl)-4-phenylthiazol-5-yl)pyrrolidine-2-carboxamide] is a potent second-generation antagonist of inhibitor of apoptosis (IAP) proteins that is being developed for the treatment of various cancers. GDC-0917 has low to moderate clearance in the mouse (12.0 ml/min/kg), rat (27.0 ml/min/kg), and dog (15.3 ml/min/kg), and high clearance in the monkey (67.6 ml/min/kg). Accordingly, oral bioavailability was lowest in monkeys compared with other species. Based on our experience with a prototype molecule with similar structure, in vitro-in vivo extrapolation was used to predict a moderate clearance (11.5 ml/min/kg) in humans. The predicted human volume of distribution was estimated using simple allometry at 6.69 l/kg. Translational pharmacokinetic-pharmacodynamic (PK-PD) analysis using results from MDA-MB-231-X1.1 breast cancer xenograft studies and predicted human pharmacokinetics suggests that ED50 and ED90 targets can be achieved in humans using acceptable doses (72 mg and 660 mg, respectively) and under an acceptable time frame. The relationship between GDC-0917 concentrations and pharmacodynamic response (cIAP1 degradation) was characterized using an in vitro peripheral blood mononuclear cell immunoassay. Simulations of human GDC-0917 plasma concentration-time profile and cIAP1 degradation at the 5-mg starting dose in the phase 1 clinical trial agreed well with observations. This work shows the importance of leveraging information from prototype molecules and illustrates how modeling and simulation can be used to add value to preclinical studies in the early stages of the drug development process.
在药物开发的临床前阶段,建模和模拟技术的应用越来越普遍。GDC-0917[(S)-1-((S)-2-环己基-2-((S)-2-(甲氨基)丙酰胺基)乙酰基)-N-(2-(恶唑-2-基)-4-苯基噻唑-5-基)吡咯烷-2-甲酰胺]是一种新型的凋亡抑制因子(IAP)蛋白的第二代拮抗剂,目前正在开发用于治疗各种癌症。GDC-0917 在小鼠(12.0 ml/min/kg)、大鼠(27.0 ml/min/kg)和狗(15.3 ml/min/kg)中的清除率较低,在猴子(67.6 ml/min/kg)中的清除率较高。因此,与其他物种相比,猴子的口服生物利用度最低。根据我们对具有相似结构的原型分子的经验,体外-体内外推法用于预测人类中度清除率(11.5 ml/min/kg)。使用简单的同种异体法估计预测的人类分布容积为 6.69 l/kg。使用 MDA-MB-231-X1.1 乳腺癌异种移植研究和预测的人体药代动力学结果进行转化药代动力学-药效学(PK-PD)分析表明,使用可接受的剂量(分别为 72 mg 和 660 mg)和可接受的时间框架,可以在人体中达到 ED50 和 ED90 靶标。使用体外外周血单核细胞免疫测定法,研究了 GDC-0917 浓度与药效反应(cIAP1 降解)之间的关系。在 1 期临床试验中,5 毫克起始剂量的人体 GDC-0917 血浆浓度-时间曲线和 cIAP1 降解的模拟与观察结果吻合良好。这项工作表明利用原型分子信息的重要性,并说明了建模和模拟如何在药物开发过程的早期临床前研究中增加价值。
