共生宿主特异性的保守细菌遗传基础。

A conserved bacterial genetic basis for commensal-host specificity.

作者信息

Gutiérrez-García Karina, Aumiller Kevin, Dodge Ren, Obadia Benjamin, Deng Ann, Agrawal Sneha, Yuan Xincheng, Wolff Richard, Zhu Haolong, Hsia Ru-Ching, Garud Nandita, Ludington William B

机构信息

Biosphere Sciences and Engineering Division, Carnegie Institution for Science, Baltimore, MD, USA.

Department of Biology, Johns Hopkins University, Baltimore, MD, USA.

出版信息

Science. 2024 Dec 6;386(6726):1117-1122. doi: 10.1126/science.adp7748. Epub 2024 Dec 5.

DOI:10.1126/science.adp7748

PMID:39636981

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11914777/

Abstract

Animals selectively acquire specific symbiotic gut bacteria from their environments that aid host fitness. To colonize, a symbiont must locate its niche and sustain growth within the gut. Adhesins are bacterial cell surface proteins that facilitate attachment to host tissues and are often virulence factors for opportunistic pathogens. However, the attachments are often transient and nonspecific, and additional mechanisms are required to sustain infection. In this work, we use live imaging of individual symbiotic bacterial cells colonizing the gut of living to show that specifically recognizes the fruit fly foregut as a distinct physical niche. establishes stably within its niche through host-specific adhesins encoded by genes carried on a colonization island. The adhesin binding domains are conserved throughout the Lactobacillales, and the island also encodes a secretion system widely conserved among commensal and pathogenic bacteria.

摘要

动物会从其环境中选择性地获取特定的共生肠道细菌，这些细菌有助于宿主的健康。为了在肠道中定殖，共生菌必须找到其生态位并在肠道内维持生长。黏附素是细菌细胞表面蛋白，有助于附着在宿主组织上，并且通常是机会致病菌的毒力因子。然而，这些附着往往是短暂且非特异性的，还需要其他机制来维持感染。在这项研究中，我们利用对定殖于活体果蝇肠道内的单个共生细菌细胞进行实时成像，以表明[具体细菌名称]特别将果蝇前肠识别为一个独特的物理生态位。[具体细菌名称]通过定殖岛上携带的基因编码的宿主特异性黏附素在其生态位内稳定定殖。黏附素结合结构域在乳杆菌目细菌中是保守的，并且该岛还编码一种在共生菌和致病菌中广泛保守的分泌系统。

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