Litcius/Paper detail

Indole Sensing Regulator (IsrR) Promotes Virulence Gene Expression in Enteric Pathogens

Aman Kumar, Regan M. Russell, Mehmet Ali Hoşkan, Vanessa Sperandio

2022mBio17 citationsDOIOpen Access PDF

Abstract

Enteric pathogens sense the complex intestinal chemistry to find a suitable colonization niche. The microbiota plays an important part in shaping this chemistry. Here we show that the abundant microbiota-derived exogenous signal indole impacts host-pathogen interactions by allowing enteric pathogens to discriminate between the luminal environment, where expression of virulence genes is an unnecessary energy burden, from the epithelial surface, where this gene expression is needed for host colonization. We describe a new signaling node through the regulator IsrR that allows for this shift. These findings establish a mechanism through which pathogens discriminate from self- and microbiota-derived signaling to establish infection.

Topics & Concepts

Citrobacter rodentiumBiologyVirulenceMicrobiologyIndole testResponse regulatorPathogenicity islandGene expressionGeneRegulation of gene expressionMutantGeneticsPathogenBiochemistryEscherichia coli research studiesViral gastroenteritis research and epidemiologyBacterial Genetics and Biotechnology