吞吐量
碳酸钙-2
吸收(声学)
空格(标点符号)
计算机科学
数据挖掘
化学
物理
电信
光学
无线
生物化学
操作系统
体外
作者
Patricia Muschong,Khader Awwad,Edward Price,Mario Mezler,Manuel Weinheimer
出处
期刊:Pharmaceutics
[Multidisciplinary Digital Publishing Institute]
日期:2024-06-22
卷期号:16 (7): 846-846
被引量:8
标识
DOI:10.3390/pharmaceutics16070846
摘要
Current drug development tends towards complex chemical molecules, referred to as “beyond rule of five” (bRo5) compounds, which often exhibit challenging physicochemical properties. Measuring Caco-2 permeability of those compounds is difficult due to technical limitations, including poor recovery and detection sensitivity. We implemented a novel assay, with optimized incubation and analytics, to measure permeability close to equilibrium. In this setup an appropriate characterization of permeability for bRo5 compounds is achievable. This equilibrated Caco-2 assay was verified with respect to data validity, compound recovery, and in vitro to in vivo correlation for human absorption. Compared to a standard assay, it demonstrated comparable performance in predicting the human fraction absorbed (fa) for reference compounds. The equilibrated assay also successfully characterized the permeability of more than 90% of the compounds analyzed, the majority of which were bRo5 (68%). These compounds could not be measured using the standard assay. Permeability and efflux ratio (ER) were highly predictive for in vivo absorption for a large set of internal bRo5 compounds. Reference cut-offs enabled the correct classification of high, moderate, and low absorption. This optimized equilibrated Caco-2 assay closes the gap for a high-throughput cellular permeability method in the bRo5 chemical space.
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