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硒唑啉盐作为“小分子催化剂”,对 ESKAPE 细菌病原体具有高效力。

Selenazolinium Salts as "Small Molecule Catalysts" with High Potency against ESKAPE Bacterial Pathogens.

机构信息

Department of Technology and Biotechnology of Drugs, Faculty of Pharmacy, Jagiellonian University, Medical College, ul. Medyczna 9, 30-688 Cracow, Poland.

Bioorganic Chemistry, School of Pharmacy, University of Saarland, Campus B2.1, D-66123 Saarbruecken, Germany.

出版信息

Molecules. 2017 Dec 8;22(12):2174. doi: 10.3390/molecules22122174.

DOI:10.3390/molecules22122174
PMID:29292789
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6149925/
Abstract

In view of the pressing need to identify new antibacterial agents able to combat multidrug-resistant bacteria, we investigated a series of fused selenazolinium derivatives (-) regarding their in vitro antimicrobial activities against 25 ESKAPE-pathogen strains. Ebselen was used as reference compound. Most of the selenocompounds demonstrated an excellent in vitro activity against all strains, with activities comparable to or even exceeding the one of ebselen. In contrast to ebselen, some selenazolinium derivatives (, , and ) even displayed significant actions against all Gram-negative pathogens tested. The 3-bromo-2-(1-hydroxy-1-methylethyl)[1,2]selenazolo[2,3-]pyridinium chloride () was particularly active (minimum inhibitory concentrations, MICs: 0.31-1.24 µg/mL for MRSA, and 0.31-2.48 µg/mL for Gram-negative bacteria) and devoid of any significant mutagenicity in the Ames assay. Our preliminary mechanistic studies in cell culture indicated that their mode of action is likely to be associated with an alteration of intracellular levels of glutathione and cysteine thiols of different proteins in the bacterial cells, hence supporting the idea that such compounds interact with the intracellular thiolstat. This alteration of pivotal cysteine residues is most likely the result of a direct or catalytic oxidative modification of such residues by the highly reactive selenium species (RSeS) employed.

摘要

鉴于迫切需要鉴定能够对抗多药耐药菌的新型抗菌剂,我们研究了一系列融合的硒唑啉𬭩衍生物(-),以评估它们对 25 株 ESKAPE 病原体菌株的体外抗菌活性。埃斯培兰被用作参考化合物。大多数硒化合物对所有菌株表现出优异的体外活性,其活性可与埃斯培兰相媲美,甚至超过埃斯培兰。与埃斯培兰相比,一些硒唑啉𬭩衍生物(、和)甚至对所有测试的革兰氏阴性病原体表现出显著的作用。3-溴-2-(1-羟基-1-甲基乙基)[1,2]硒唑并[2,3-]吡啶𬭩氯化物()特别活跃(最低抑菌浓度,MIC:MRSA 的 0.31-1.24 µg/mL,革兰氏阴性菌的 0.31-2.48 µg/mL),并且在 Ames 试验中没有任何显著的致突变性。我们在细胞培养中的初步机制研究表明,它们的作用模式可能与细胞内谷胱甘肽和半胱氨酸巯基水平的改变有关,不同的蛋白质在细菌细胞中,因此支持这样的化合物与细胞内硫醇库相互作用的观点。这种关键半胱氨酸残基的改变很可能是由于高度反应性的硒物种(RSeS)直接或催化氧化修饰这些残基所致。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9537/6149925/6b13001b6b55/molecules-22-02174-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9537/6149925/d5eb5c2f6241/molecules-22-02174-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9537/6149925/1dd135f414f4/molecules-22-02174-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9537/6149925/6b13001b6b55/molecules-22-02174-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9537/6149925/d5eb5c2f6241/molecules-22-02174-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9537/6149925/1dd135f414f4/molecules-22-02174-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9537/6149925/6b13001b6b55/molecules-22-02174-g003.jpg

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