化学
药物发现
软件工程
梅德林
制药工业
药理学
医学物理学
药品
计算机科学
计算生物学
作者
Yong‐Jin Wu,Alyah F. Chmiel,Joanne J. Bronson
标识
DOI:10.1021/acs.jmedchem.5c03492
摘要
Since its introduction in 1951, bioisosterism has become a cornerstone strategy in drug design and development, enabling chemists to rationally modify molecular structures to optimize biological and physicochemical properties. In this perspective, we examine 57 FDA-approved drugs and 18 advanced drug candidates wherein bioisosteric replacements were successfully employed to address a range of developability challenges encountered during lead optimization. These strategic substitutions have led to significant improvements in potency, selectivity, solubility, and metabolic stability, while simultaneously mitigating issues related to lipophilicity, plasma protein binding, and the formation of reactive metabolites. Together, these examples highlight the enduring impact of bioisosterism as a versatile tool for fine-tuning drug candidates and overcoming the multifaceted challenges of modern medicinal chemistry.
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