3,3-二氟氧杂环丁烷——药物研发中用于生物电子等排体替代的多功能官能团
3,3-Difluorooxetane-A Versatile Functional Group for Bioisosteric Replacements in Drug Discovery.
作者信息
Liashuk Oleksandr S, Fedinchyk Anastasiya, Melnykov Kostiantyn P, Herasymchuk Maksym, Alieksieieva Diana, Lesyk Dmytro, Bas Yuliia P, Keda Tetiana Ye, Yatsymyrskiy Andriy V, Holota Yuliia, Borysko Petro, Yarmolchuk Volodymyr S, Grygorenko Oleksandr O
机构信息
Enamine Ltd., Winston Churchill Street 78, 02094, Kyїv, Ukraine.
Taras Shevchenko National University of Kyiv, Volodymyrska Street 60, 01601, Kyїv, Ukraine.
出版信息
Chemistry. 2024 Dec 23;30(72):e202403277. doi: 10.1002/chem.202403277. Epub 2024 Oct 31.
Functional group (FG) is one of the cornerstone concepts in organic chemistry and related areas. The wide spread of bioisosterism ideas in medicinal chemistry and beyond caused a striking rise in demand for novel FGs with a defined impact on the developed compound properties. In this work, the evaluation of the 3,3-difluorooxetane unit (3,3-diFox) as a functional group for bioisosteric replacements is disclosed. A comprehensive experimental study (including multigram building block synthesis, quantification of steric and electronic properties, measurements of pK, LogP, chemical stability, and biological evaluation of the 3,3-diFox-derived bioisostere of a drug candidate) revealed a prominent behavior of the 3,3-diFox fragment as a versatile substituent for early drug discovery programs.
官能团(FG)是有机化学及相关领域的基石概念之一。生物电子等排体概念在药物化学及其他领域的广泛传播,导致对新型官能团的需求显著增加,这些官能团要对所开发化合物的性质产生明确影响。在这项工作中,公开了对3,3 - 二氟氧杂环丁烷单元(3,3 - diFox)作为生物电子等排体替代官能团的评估。一项全面的实验研究(包括多克规模的砌块合成、空间和电子性质的量化、pK、LogP、化学稳定性的测量以及对一种候选药物的3,3 - diFox衍生生物电子等排体的生物学评估)表明,3,3 - diFox片段作为早期药物发现项目的通用取代基表现突出。
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