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Commensal-derived metabolites govern Vibrio cholerae pathogenesis in host intestine

Authors :
Jin Sun You
Ji Hyun Yong
Gwang Hee Kim
Sungmin Moon
Ki Taek Nam
Ji Hwan Ryu
Mi Young Yoon
Sang Sun Yoon
Source :
Microbiome, Vol 7, Iss 1, Pp 1-18 (2019)
Publication Year :
2019
Publisher :
BMC, 2019.

Abstract

Abstract Background Recent evidence suggests that the commensal microbes act as a barrier against invading pathogens and enteric infections are the consequences of multi-layered interactions among commensals, pathogens, and the host intestinal tissue. However, it remains unclear how perturbations of the gut microbiota compromise host infection resistance, especially through changes at species and metabolite levels. Results Here, we illustrate how Bacteroides vulgatus, a dominant species of the Bacteroidetes phylum in mouse intestine, suppresses infection by Vibrio cholerae, an important human pathogen. Clindamycin (CL) is an antibiotic that selectively kills anaerobic bacteria, and accordingly Bacteroidetes are completely eradicated from CL-treated mouse intestines. The Bacteroidetes-depleted adult mice developed severe cholera-like symptoms, when infected with V. cholerae. Germ-free mice mono-associated with B. vulgatus became resistant to V. cholerae infection. Levels of V. cholerae growth-inhibitory metabolites including short-chain fatty acids plummeted upon CL treatment, while levels of compounds that enhance V. cholerae proliferation were elevated. Furthermore, the intestinal colonization process of V. cholerae was well-simulated in CL-treated adult mice. Conclusions Overall, we provide insights into how a symbiotic microbe and a pathogenic intruder interact inside host intestine. We identified B. vulgatus as an indigenous microbial species that can suppress intestinal infection. Our results also demonstrate that commensal-derived metabolites are a critical determinant for host resistance against V. cholerae infection, and that CL pretreatment of adult mice generates a simple yet useful model of cholera infection.

Details

Language :
English
ISSN :
20492618
Volume :
7
Issue :
1
Database :
Directory of Open Access Journals
Journal :
Microbiome
Publication Type :
Academic Journal
Accession number :
edsdoj.18dd7b51afb439e81aea8ff3ce4137e
Document Type :
article
Full Text :
https://doi.org/10.1186/s40168-019-0746-y