取代水杨酰苯胺作为细菌双组分调节系统的抑制剂。

Substituted salicylanilides as inhibitors of two-component regulatory systems in bacteria.

作者信息

Macielag M J, Demers J P, Fraga-Spano S A, Hlasta D J, Johnson S G, Kanojia R M, Russell R K, Sui Z, Weidner-Wells M A, Werblood H, Foleno B D, Goldschmidt R M, Loeloff M J, Webb G C, Barrett J F

机构信息

The R.W. Johnson Pharmaceutical Research Institute, 1000 Route 202, Raritan, New Jersey 08869, USA.

出版信息

J Med Chem. 1998 Jul 30;41(16):2939-45. doi: 10.1021/jm9803572.

DOI:10.1021/jm9803572

PMID:9685233

Abstract

A new class of inhibitors of the two-component regulatory systems (TCS) of bacteria was discovered based on the salicylanilide screening hits, closantel (1) and tetrachlorosalicylanilide (9). A systematic SAR study versus a model TCS, KinA/Spo0F, demonstrated the importance of electron-attracting substituents in the salicyloyl ring and hydrophobic groups in the anilide moiety for optimal activity. In addition, derivatives 8 and 16, containing the 2, 3-dihydroxybenzanilide structural motif, were potent inhibitors of the autophosphorylation of the KinA kinase, with IC50s of 2.8 and 6. 3 &microM, respectively. Compound 8 also inhibited the TCS mediating vancomycin resistance (VanS/VanR) in a genetically engineered Enterococcus faecalis cell line at concentrations subinhibitory for growth. Closantel (1), tetrachlorosalicylanilide (9), and several related derivatives (2, 7, 10, 11, 20) had antibacterial activity against the drug-resistant organisms, methicillin-resistant Staphylococcus aureus (MRSA) and vancomycin-resistant Enterococcus faecium (VREF).

摘要

基于水杨酰苯胺筛选结果氯氰碘柳胺（1）和四氯水杨酰苯胺（9），发现了一类新型的细菌双组分调节系统（TCS）抑制剂。针对模型TCS即KinA/Spo0F进行的系统构效关系研究表明，水杨酰环中的吸电子取代基和苯胺部分的疏水基团对于最佳活性至关重要。此外，含有2,3 - 二羟基苯甲酰胺结构基序的衍生物8和16是KinA激酶自磷酸化的有效抑制剂，IC50分别为2.8和6.3 μM。化合物8在对生长具有亚抑制浓度时，还能抑制基因工程粪肠球菌细胞系中介导万古霉素抗性的TCS（VanS/VanR）。氯氰碘柳胺（1）、四氯水杨酰苯胺（9）以及几种相关衍生物（2、7、10、11、20）对耐药菌耐甲氧西林金黄色葡萄球菌（MRSA）和耐万古霉素屎肠球菌（VREF）具有抗菌活性。

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取代水杨酰苯胺作为细菌双组分调节系统的抑制剂。

Substituted salicylanilides as inhibitors of two-component regulatory systems in bacteria.

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