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具有广泛结构多样性的新一代 5-硝基咪唑类抗菌药物在活性空间中的治疗潜力得到扩展。

Expanded therapeutic potential in activity space of next-generation 5-nitroimidazole antimicrobials with broad structural diversity.

机构信息

Departments of Medicine and Pathology, University of California, San Diego, La Jolla, CA 92093.

出版信息

Proc Natl Acad Sci U S A. 2013 Oct 22;110(43):17564-9. doi: 10.1073/pnas.1302664110. Epub 2013 Oct 7.

DOI:10.1073/pnas.1302664110
PMID:24101497
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3808650/
Abstract

Metronidazole and other 5-nitroimidazoles (5-NI) are among the most effective antimicrobials available against many important anaerobic pathogens, but evolving resistance is threatening their long-term clinical utility. The common 5-NIs were developed decades ago, yet little 5-NI drug development has since taken place, leaving the true potential of this important drug class unexplored. Here we report on a unique approach to the modular synthesis of diversified 5-NIs for broad exploration of their antimicrobial potential. Many of the more than 650 synthesized compounds, carrying structurally diverse functional groups, have vastly improved activity against a range of microbes, including the pathogenic protozoa Giardia lamblia and Trichomonas vaginalis, and the bacterial pathogens Helicobacter pylori, Clostridium difficile, and Bacteroides fragilis. Furthermore, they can overcome different forms of drug resistance, and are active and nontoxic in animal infection models. These findings provide impetus to the development of structurally diverse, next-generation 5-NI drugs as agents in the antimicrobial armamentarium, thus ensuring their future viability as primary therapeutic agents against many clinically important infections.

摘要

甲硝唑和其他 5-硝基咪唑类化合物(5-NI)是对抗许多重要厌氧病原体最有效的抗菌药物之一,但耐药性的不断进化正在威胁它们的长期临床应用。常见的 5-NI 药物是几十年前开发的,但此后几乎没有进行过 5-NI 药物开发,这使得这种重要药物类别的真正潜力尚未得到探索。在这里,我们报告了一种独特的方法来进行模块化合成多样化的 5-NI,以广泛探索其抗菌潜力。在合成的 650 多种化合物中,许多化合物带有结构多样的官能团,对一系列微生物的活性大大提高,包括致病原生动物蓝氏贾第鞭毛虫和阴道毛滴虫,以及细菌病原体幽门螺杆菌、艰难梭菌和脆弱拟杆菌。此外,它们可以克服不同形式的耐药性,并且在动物感染模型中具有活性和低毒性。这些发现为开发结构多样化的下一代 5-NI 药物作为抗菌武器提供了动力,从而确保它们作为治疗许多临床重要感染的主要治疗药物的未来可行性。

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