Research and Development, AbbVie Inc., 1 North Waukegan Road, North Chicago, Illinois 60064, United States.
J Med Chem. 2024 Apr 11;67(7):5683-5698. doi: 10.1021/acs.jmedchem.3c02332. Epub 2024 Mar 18.
Developing orally bioavailable drugs demands an understanding of absorption in early drug development. Traditional methods and physicochemical properties optimize absorption for rule of five (Ro5) compounds; beyond rule of five (bRo5) drugs necessitate advanced tools like the experimental measure of exposed polarity (EPSA) and the AbbVie multiparametric score (AB-MPS). Analyzing AB-MPS and EPSA against ∼1000 compounds with human absorption data and ∼10,000 AbbVie tool compounds (∼1000 proteolysis targeting chimeras or PROTACs, ∼7000 Ro5s, and ∼2000 bRo5s) revealed new patterns of physicochemical trends. We introduced a high-throughput "polarity reduction" descriptor: ETR, the EPSA-to-topological polar surface area (TPSA) ratio, highlights unique bRo5 and PROTAC subsets for specialized drug design strategies for effective absorption. Our methods and guidelines refine drug design by providing innovative in vitro approaches, enhancing physicochemical property optimization, and enabling accurate predictions of intestinal absorption in the complex bRo5 domain.
开发口服生物利用度药物需要在早期药物开发中了解吸收。传统方法和物理化学性质优化了 Rule of Five (Ro5) 化合物的吸收;Beyond Rule of Five (bRo5) 药物需要使用实验测量暴露极性 (EPSA) 和 AbbVie 多参数评分 (AB-MPS) 等先进工具。对具有人体吸收数据的约 1000 种化合物和约 10000 种 AbbVie 工具化合物(约 1000 个蛋白水解靶向嵌合体或 PROTAC、约 7000 个 Ro5 和约 2000 个 bRo5)进行 AB-MPS 和 EPSA 分析,揭示了新的物理化学趋势模式。我们引入了一种高通量的“极性降低”描述符:ETR,即 EPSA 与拓扑极性表面积 (TPSA) 的比值,突出了独特的 bRo5 和 PROTAC 子集,用于针对有效吸收的专门药物设计策略。我们的方法和指南通过提供创新的体外方法、增强物理化学性质优化以及实现复杂 bRo5 领域中肠道吸收的准确预测,来完善药物设计。
