抗生素贝达喹啉激活宿主巨噬细胞固有免疫抵抗细菌感染。

The antibiotic bedaquiline activates host macrophage innate immune resistance to bacterial infection.

机构信息

Unit for Integrated Mycobacterial Pathogenomics, CNRS UMR 3525, Institut Pasteur, Paris, France.

Université Paris Diderot, Sorbonne Paris Cité, Cellule Pasteur, Paris, France.

出版信息

Elife. 2020 May 4;9:e55692. doi: 10.7554/eLife.55692.

DOI:10.7554/eLife.55692

PMID:32369020

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7200153/

Abstract

Antibiotics are widely used in the treatment of bacterial infections. Although known for their microbicidal activity, antibiotics may also interfere with the host's immune system. Here, we analyzed the effects of bedaquiline (BDQ), an inhibitor of the mycobacterial ATP synthase, on human macrophages. Genome-wide gene expression analysis revealed that BDQ reprogramed cells into potent bactericidal phagocytes. We found that 579 and 1,495 genes were respectively differentially expressed in naive- and -infected macrophages incubated with the drug, with an over-representation of lysosome-associated genes. BDQ treatment triggered a variety of antimicrobial defense mechanisms, including phagosome-lysosome fusion, and autophagy. These effects were associated with activation of transcription factor EB, involved in the transcription of lysosomal genes, resulting in enhanced intracellular killing of different bacterial species that were naturally insensitive to BDQ. Thus, BDQ could be used as a host-directed therapy against a wide range of bacterial infections.

摘要

抗生素被广泛用于治疗细菌感染。尽管抗生素以其杀菌活性而闻名，但它们也可能干扰宿主的免疫系统。在这里，我们分析了分枝杆菌 ATP 合酶抑制剂贝达喹啉（BDQ）对人巨噬细胞的影响。全基因组基因表达分析显示，BDQ 将细胞重编程为具有强大杀菌作用的吞噬细胞。我们发现，在用药物孵育的未感染和感染的巨噬细胞中，分别有 579 个和 1495 个基因差异表达，溶酶体相关基因的表达明显增加。BDQ 处理触发了多种抗菌防御机制，包括吞噬体-溶酶体融合和自噬。这些作用与转录因子 EB 的激活有关，该转录因子参与溶酶体基因的转录，从而增强了对不同细菌物种的细胞内杀伤作用，而这些细菌物种对 BDQ 天然不敏感。因此，BDQ 可作为一种针对多种细菌感染的宿主定向治疗药物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6215/7200153/b54699650bf8/elife-55692-fig1.jpg

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抗生素贝达喹啉激活宿主巨噬细胞固有免疫抵抗细菌感染。

The antibiotic bedaquiline activates host macrophage innate immune resistance to bacterial infection.

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