Practical Application of Rodent Transporter Knockout Models to Assess Brain Penetration in Drug Discovery.

Elin Eneberg, Christopher R Jones, Thomas Jensen, Kristine Langthaler, Christoffer Bundgaard
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引用次数: 1

Abstract

Background and objective: Compound X is a drug candidate for the treatment of neurodegenerative diseases. Its brain distribution was evaluated as part of the lead identification and optimization activities undertaken in early drug discovery.

Methods: The brain distribution of compound X was studied in genetic transporter knockout rodent models, in vivo models with a chemical inhibitor, and in vitro transporter cell systems.

Results: Compound X was found to be a substrate for human Breast Cancer-Resistance Protein (BCRP) in vitro (efflux ratio 8.1) and rodent Bcrp in vivo (Kp, uuKO/Kp, uuWT = 0.15/0.057 = 2.7, p< 0.05) but not a substrate for human P-glycoprotein (P-gp) in vitro (efflux ratio 1.0) nor rodent P-gp in vivo (Kp, uuKO/Kp, uuWT = 0.056/ 0.051 = 1.1, p> 0.05). When both transporters were knocked out in vivo, Kp, uu increased to 0.51±0.02. A similar pattern observed across compounds with related chemistry corroborating the structure-activity relationship.

Conclusion: While in vitro assays showed compound X to be a substrate for human BCRP and not P-gp, in vivo studies indicated a synergistic effect between rodent efflux transporters. However, this only accounted for ~50% of restricted BBB-transport, suggesting involvement of other efflux transporters. Considering Kp, uu as a key criterion for assessing the technical quality of CNS candidates before progression into clinical development, it is important to identify relevant screening assays for a better understanding of low Kp, uu and brain distribution in pre-clinical models for translation to humans.

啮齿动物转运蛋白敲除模型在药物开发中评估脑渗透的实际应用。
背景与目的:化合物X是一种治疗神经退行性疾病的候选药物。它的大脑分布被评估为早期药物发现中进行的先导识别和优化活动的一部分。方法:研究化合物X在遗传转运蛋白敲除啮齿动物模型、化学抑制剂在体内模型和体外转运细胞系统中的脑分布。结果:化合物X是人乳腺癌抵抗蛋白(BCRP)体外(外排比8.1)和啮齿动物体内BCRP (Kp, uuKO/Kp, uuWT = 0.15/0.057 = 2.7, p< 0.05)的底物,但不是人p -糖蛋白(p -gp)体外(外排比1.0)和啮齿动物体内p -gp (Kp, uuKO/Kp, uuWT = 0.056/ 0.051 = 1.1, p> 0.05)的底物。在体内敲除两种转运蛋白后,Kp, uu增加到0.51±0.02。在具有相关化学性质的化合物中观察到类似的模式,证实了结构-活性关系。结论:虽然体外实验表明化合物X是人BCRP的底物,而不是P-gp,但体内研究表明啮齿动物外排转运蛋白之间存在协同作用。然而,这仅占受限血脑屏障转运的约50%,表明涉及其他外排转运蛋白。考虑到Kp、uu是在进入临床开发之前评估CNS候选药物技术质量的关键标准,确定相关的筛选方法以更好地了解低Kp、uu和临床前模型中用于转化为人类的大脑分布是很重要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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