EspF is crucial for Citrobacter rodentium-induced tight junction disruption and lethality in immunocompromised animals.

EspF is crucial for Citrobacter rodentium-induced tight junction disruption and lethality in immunocompromised animals.

Attaching/Effacing (A/E) bacteria include human pathogens enteropathogenic Escherichia coli (EPEC), enterohemorrhagic E. coli (EHEC), and their murine equivalent Citrobacter rodentium (CR), of which EPEC and EHEC are important causative agents of foodborne diseases worldwide. While A/E pathogen infe...

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Main Authors: Xue Xia, Yue Liu, Andrea Hodgson, Dongqing Xu, Wenxuan Guo, Hongbing Yu, Weifeng She, Chenxing Zhou, Lei Lan, Kai Fu, Bruce A Vallance, Fengyi Wan
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2019-06-01
Series:PLoS Pathogens
Online Access:https://doi.org/10.1371/journal.ppat.1007898
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spelling doaj-3998c08814ba41c4afc823c4cc8e2e8f2021-04-21T17:43:20ZengPublic Library of Science (PLoS)PLoS Pathogens1553-73661553-73742019-06-01156e100789810.1371/journal.ppat.1007898EspF is crucial for Citrobacter rodentium-induced tight junction disruption and lethality in immunocompromised animals.Xue XiaYue LiuAndrea HodgsonDongqing XuWenxuan GuoHongbing YuWeifeng SheChenxing ZhouLei LanKai FuBruce A VallanceFengyi WanAttaching/Effacing (A/E) bacteria include human pathogens enteropathogenic Escherichia coli (EPEC), enterohemorrhagic E. coli (EHEC), and their murine equivalent Citrobacter rodentium (CR), of which EPEC and EHEC are important causative agents of foodborne diseases worldwide. While A/E pathogen infections cause mild symptoms in the immunocompetent hosts, an increasing number of studies show that they produce more severe morbidity and mortality in immunocompromised and/or immunodeficient hosts. However, the pathogenic mechanisms and crucial host-pathogen interactions during A/E pathogen infections under immunocompromised conditions remain elusive. We performed a functional screening by infecting interleukin-22 (IL-22) knockout (Il22-/-) mice with a library of randomly mutated CR strains. Our screen reveals that interruption of the espF gene, which encodes the Type III Secretion System effector EspF (E. coli secreted protein F) conserved among A/E pathogens, completely abolishes the high mortality rates in CR-infected Il22-/- mice. Chromosomal deletion of espF in CR recapitulates the avirulent phenotype without impacting colonization and proliferation of CR, and EspF complement in ΔespF strain fully restores the virulence in mice. Moreover, the expression levels of the espF gene are elevated during CR infection and CR induces disruption of the tight junction (TJ) strands in colonic epithelium in an EspF-dependent manner. Distinct from EspF, chromosomal deletion of other known TJ-damaging effector genes espG and map failed to impede CR virulence in Il22-/- mice. Hence our findings unveil a critical pathophysiological function for EspF during CR infection in the immunocompromised host and provide new insights into the complex pathogenic mechanisms of A/E pathogens.https://doi.org/10.1371/journal.ppat.1007898
collection DOAJ
language English
format Article
sources DOAJ
author Xue Xia
Yue Liu
Andrea Hodgson
Dongqing Xu
Wenxuan Guo
Hongbing Yu
Weifeng She
Chenxing Zhou
Lei Lan
Kai Fu
Bruce A Vallance
Fengyi Wan
spellingShingle Xue Xia
Yue Liu
Andrea Hodgson
Dongqing Xu
Wenxuan Guo
Hongbing Yu
Weifeng She
Chenxing Zhou
Lei Lan
Kai Fu
Bruce A Vallance
Fengyi Wan
EspF is crucial for Citrobacter rodentium-induced tight junction disruption and lethality in immunocompromised animals.
PLoS Pathogens
author_facet Xue Xia
Yue Liu
Andrea Hodgson
Dongqing Xu
Wenxuan Guo
Hongbing Yu
Weifeng She
Chenxing Zhou
Lei Lan
Kai Fu
Bruce A Vallance
Fengyi Wan
author_sort Xue Xia
title EspF is crucial for Citrobacter rodentium-induced tight junction disruption and lethality in immunocompromised animals.
title_short EspF is crucial for Citrobacter rodentium-induced tight junction disruption and lethality in immunocompromised animals.
title_full EspF is crucial for Citrobacter rodentium-induced tight junction disruption and lethality in immunocompromised animals.
title_fullStr EspF is crucial for Citrobacter rodentium-induced tight junction disruption and lethality in immunocompromised animals.
title_full_unstemmed EspF is crucial for Citrobacter rodentium-induced tight junction disruption and lethality in immunocompromised animals.
title_sort espf is crucial for citrobacter rodentium-induced tight junction disruption and lethality in immunocompromised animals.
publisher Public Library of Science (PLoS)
series PLoS Pathogens
issn 1553-7366
1553-7374
publishDate 2019-06-01
description Attaching/Effacing (A/E) bacteria include human pathogens enteropathogenic Escherichia coli (EPEC), enterohemorrhagic E. coli (EHEC), and their murine equivalent Citrobacter rodentium (CR), of which EPEC and EHEC are important causative agents of foodborne diseases worldwide. While A/E pathogen infections cause mild symptoms in the immunocompetent hosts, an increasing number of studies show that they produce more severe morbidity and mortality in immunocompromised and/or immunodeficient hosts. However, the pathogenic mechanisms and crucial host-pathogen interactions during A/E pathogen infections under immunocompromised conditions remain elusive. We performed a functional screening by infecting interleukin-22 (IL-22) knockout (Il22-/-) mice with a library of randomly mutated CR strains. Our screen reveals that interruption of the espF gene, which encodes the Type III Secretion System effector EspF (E. coli secreted protein F) conserved among A/E pathogens, completely abolishes the high mortality rates in CR-infected Il22-/- mice. Chromosomal deletion of espF in CR recapitulates the avirulent phenotype without impacting colonization and proliferation of CR, and EspF complement in ΔespF strain fully restores the virulence in mice. Moreover, the expression levels of the espF gene are elevated during CR infection and CR induces disruption of the tight junction (TJ) strands in colonic epithelium in an EspF-dependent manner. Distinct from EspF, chromosomal deletion of other known TJ-damaging effector genes espG and map failed to impede CR virulence in Il22-/- mice. Hence our findings unveil a critical pathophysiological function for EspF during CR infection in the immunocompromised host and provide new insights into the complex pathogenic mechanisms of A/E pathogens.
url https://doi.org/10.1371/journal.ppat.1007898
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