新型三氮烯吲哚抗生素：合成与从苗头化合物到先导化合物的优化

Novel Triazeneindole Antibiotics: Synthesis and Hit-to-Lead Optimization.

作者信息

Sorokin Boris, Filimonova Alla, Emelianova Anna, Kublitski Vadim, Gvozd Artem, Shmygarev Vladimir, Yampolsky Ilia, Guglya Elena, Gusev Evgeniy, Kuzmin Denis

机构信息

Moscow Center for Advanced Studies, Kulakova Str. 20, 123592 Moscow, Russia.

Kurchatov Centre for Genome Research, National Research Centre "Kurchatov Institute", 123182 Moscow, Russia.

出版信息

Int J Mol Sci. 2025 Feb 21;26(5):1870. doi: 10.3390/ijms26051870.

DOI:10.3390/ijms26051870

PMID:40076499

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11899342/

Abstract

Bacterial antibiotic resistance represents a major healthcare problem. In 2019, 4.95 million deaths were associated with antibiotic resistance, and it is estimated that, by 2050, up to 3.8% of the global gross domestic product could be lost due to this problem. Methicillin-resistant is one of the leading sources of hospital-acquired infections associated with increased mortality, length of hospital stay, and higher cost of treatment. Here, we describe the de novo synthesis of a library of 22 triazeneindole derivatives with high activity against a wide panel of multidrug-resistant MRSA clinical isolates. Leading compound BX-SI043 (ethyl 6-fluoro-3-[pyrrolidin-1-yl-azo]-1H-indole-2-carboxylate) showed high activity (minimal inhibitory concentration range, 0.125-0.5 mg/L) against 41 multidrug-resistant MRSA strains, as well as relatively low in vitro cytotoxicity (selectivity index, 76) and in vivo acute toxicity (maximum tolerated dose, 600 mg/kg), via intragastric administration in rats. These data suggest that BX-SI043 is a promising drug candidate for the development a novel MRSA treatment.

摘要

细菌抗生素耐药性是一个重大的医疗保健问题。2019年，495万人死亡与抗生素耐药性有关，据估计，到2050年，由于这个问题，全球国内生产总值可能损失高达3.8%。耐甲氧西林金黄色葡萄球菌是医院获得性感染的主要来源之一，与死亡率增加、住院时间延长和治疗成本升高有关。在此，我们描述了22种三氮烯吲哚衍生物文库的从头合成，这些衍生物对多种耐多药MRSA临床分离株具有高活性。先导化合物BX-SI043（6-氟-3-[吡咯烷-1-基偶氮]-1H-吲哚-2-羧酸乙酯）对41株耐多药MRSA菌株表现出高活性（最低抑菌浓度范围为0.125-0.5mg/L），以及相对较低的体外细胞毒性（选择性指数为76）和体内急性毒性（最大耐受剂量为600mg/kg），通过大鼠灌胃给药。这些数据表明BX-SI043是开发新型MRSA治疗药物的有前景的候选药物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a5e3/11899342/312dcee38940/ijms-26-01870-g001.jpg

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新型三氮烯吲哚抗生素：合成与从苗头化合物到先导化合物的优化

Novel Triazeneindole Antibiotics: Synthesis and Hit-to-Lead Optimization.

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