酚糖脂促进分枝杆菌逃离具有杀菌作用的组织驻留巨噬细胞。

Phenolic Glycolipid Facilitates Mycobacterial Escape from Microbicidal Tissue-Resident Macrophages.

作者信息

Cambier C J, O'Leary Seónadh M, O'Sullivan Mary P, Keane Joseph, Ramakrishnan Lalita

机构信息

Department of Immunology, University of Washington, Seattle, WA 98195, USA; Molecular Immunity Unit, Department of Medicine, University of Cambridge, MRC Laboratory of Molecular Biology, Cambridge CB2 0QH, UK; Department of Chemistry, Stanford University, Stanford, CT 94305, USA.

Department of Clinical Medicine, Trinity Translational Medicine Institute, Trinity College Dublin, Dublin 8, Ireland.

出版信息

Immunity. 2017 Sep 19;47(3):552-565.e4. doi: 10.1016/j.immuni.2017.08.003. Epub 2017 Aug 24.

DOI:10.1016/j.immuni.2017.08.003

PMID:28844797

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5610147/

Abstract

Mycobacterium tuberculosis (Mtb) enters the host in aerosol droplets deposited in lung alveoli, where the bacteria first encounter lung-resident alveolar macrophages. We studied the earliest mycobacterium-macrophage interactions in the optically transparent zebrafish. First-responding resident macrophages phagocytosed and eradicated infecting mycobacteria, suggesting that to establish a successful infection, mycobacteria must escape out of the initially infected resident macrophage into growth-permissive monocytes. We defined a critical role for mycobacterial membrane phenolic glycolipid (PGL) in engineering this transition. PGL activated the STING cytosolic sensing pathway in resident macrophages, inducing the production of the chemokine CCL2, which in turn recruited circulating CCR2 monocytes toward infection. Transient fusion of infected macrophages with CCR2 monocytes enabled bacterial transfer and subsequent dissemination, and interrupting this transfer so as to prolong mycobacterial sojourn in resident macrophages promoted clearing of infection. Human alveolar macrophages produced CCL2 in a PGL-dependent fashion following infection, arguing for the potential of PGL-blocking interventions or PGL-targeting vaccine strategies in the prevention of tuberculosis. VIDEO ABSTRACT.

摘要

结核分枝杆菌（Mtb）通过沉积在肺泡中的气溶胶飞沫进入宿主，在那里细菌首先遇到驻留在肺部的肺泡巨噬细胞。我们在光学透明的斑马鱼中研究了最早的分枝杆菌与巨噬细胞的相互作用。首先做出反应的驻留巨噬细胞吞噬并清除感染的分枝杆菌，这表明为了成功建立感染，分枝杆菌必须从最初感染的驻留巨噬细胞中逃逸到允许生长的单核细胞中。我们确定了分枝杆菌膜酚糖脂（PGL）在促成这种转变中起关键作用。PGL激活了驻留巨噬细胞中的STING胞质传感途径，诱导趋化因子CCL2的产生，进而将循环中的CCR2单核细胞招募到感染部位。被感染的巨噬细胞与CCR2单核细胞的短暂融合使得细菌得以转移并随后扩散，而中断这种转移以延长分枝杆菌在驻留巨噬细胞中的停留时间则促进了感染的清除。人类肺泡巨噬细胞在感染后以PGL依赖的方式产生CCL2，这表明PGL阻断干预措施或靶向PGL的疫苗策略在预防结核病方面具有潜力。视频摘要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/614b/5610147/701076aac23f/fx1.jpg

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酚糖脂促进分枝杆菌逃离具有杀菌作用的组织驻留巨噬细胞。

Phenolic Glycolipid Facilitates Mycobacterial Escape from Microbicidal Tissue-Resident Macrophages.

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