化学
烷基化
嘧啶
立体化学
联苯
连接器
烷基
铅化合物
甲基
代谢稳定性
氢键
结构-活动关系
体外
生物化学
分子
有机化学
计算机科学
操作系统
催化作用
作者
Li Ding,Christophe Pannecouque,Erik De Clercq,Chunlin Zhuang,Fen‐Er Chen
标识
DOI:10.1021/acs.jmedchem.1c00128
摘要
Considering the nonideal metabolic stability of the difluoro-biphenyl-diarylpyrimidine lead compound 4, a series of novel alkylated difluoro-biphenyl-diarylpyrimidines were designed and synthesized based on their structure. Introducing alkyl or substituted alkyl groups on the linker region to block the potential metabolic sensitive sites generated 22 derivatives. Among them, compound 12a with an N-methyl group displayed excellent anti-HIV-1 activity and selectivity. The methyl group was hopped to the central pyrimidine to occupy the small linker region and maintain the water-mediated hydrogen bond observed in the binding of compound 4 with RT. The resulting compound 16y exhibited an improved anti-HIV-1 activity, much lower cytotoxicity, and nanomolar activity toward multiple mutants. In addition, 16y has a better stability in human liver microsomes than 4. Moreover, no apparent in vivo acute toxicity was observed in 16y-treated female, especially pregnant mice. This series of alkylated compounds with highly potency and safety represent a promising lead template for future discovery.
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