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mBio

Title:		The CovRS Environmental Sensor Directly Controls the ComRS Signaling System To Orchestrate Competence Bimodality in Salivarius Streptococci
Author(s):		Knoops A; Vande Capelle F; Fontaine L; Verhaegen M; Mignolet J; Goffin P; Mahillon J; Sass A; Coenye T; Ledesma-Garcia L; Hols P;
Address:		"Louvain Institute of Biomolecular Science and Technology, Biochemistry and Genetics of Microorganisms, Universite catholique de Louvain, Louvain-La-Neuve, Belgium. Cellular and Molecular Microbiology Laboratory, Universite Libre de Bruxelles, Gosselies, Belgium. Earth and Life Institute, Laboratory of Food and Environmental Microbiology, Universite catholique de Louvain, Louvain-la-Neuve, Belgium. Laboratory of Pharmaceutical Microbiology, Ghent University, Ghent, Belgium"
Journal Title:		mBio
Year:		2022
Volume:		20220104
Issue:		1
Page Number:		e0312521 -
DOI:		10.1128/mbio.03125-21
ISSN/ISBN:		2150-7511 (Electronic)
Abstract:		"In bacteria, phenotypic heterogeneity in an isogenic population compensates for the lack of genetic diversity and allows concomitant multiple survival strategies when choosing only one is too risky. This powerful tactic is exploited for competence development in streptococci where only a subset of the community triggers the pheromone signaling system ComR-ComS, resulting in a bimodal activation. However, the regulatory cascade and the underlying mechanisms of this puzzling behavior remained partially understood. Here, we show that CovRS, a well-described virulence regulatory system in pathogenic streptococci, directly controls the ComRS system to generate bimodality in the gut commensal Streptococcus salivarius and the closely related species Streptococcus thermophilus. Using single-cell analysis of fluorescent reporter strains together with regulatory mutants, we revealed that the intracellular concentration of ComR determines the proportion of competent cells in the population. We also showed that this bimodal activation requires a functional positive-feedback loop acting on ComS production, as well as its exportation and reinternalization via dedicated permeases. As the intracellular ComR concentration is critical in this process, we hypothesized that an environmental sensor could control its abundance. We systematically inactivated all two-component systems and identified CovRS as a direct repression system of comR expression. Notably, we showed that the system transduces its negative regulation through CovR binding to multiple sites in the comR promoter region. Since CovRS integrates environmental stimuli, we suggest that it is the missing piece of the puzzle that connects environmental conditions to (bimodal) competence activation in salivarius streptococci. IMPORTANCE Combining production of antibacterial compounds and uptake of DNA material released by dead cells, competence is one of the most efficient survival strategies in streptococci. Yet, this powerful tactic is energy consuming and reprograms the metabolism to such an extent that cell proliferation is transiently impaired. To circumvent this drawback, competence activation is restricted to a subpopulation, a process known as bimodality. In this work, we explored this phenomenon in salivarius streptococci and elucidated the molecular mechanisms governing cell fate. We also show that an environmental sensor controlling virulence in pathogenic streptococci is diverted to control competence in commensal streptococci. Together, those results showcase how bacteria can sense and transmit external stimuli to complex communication devices for fine-tuning collective behaviors"
Keywords:		"*Bacterial Proteins/metabolism *Quorum Sensing/physiology Streptococcus/metabolism Signal Transduction/genetics Streptococcus thermophilus Gene Expression Regulation, Bacterial ComRS XIP pheromone bimodality cell-to-cell communication quorum sensing stoch;"
Notes:		"MedlineKnoops, Adrien Vande Capelle, Florence Fontaine, Laetitia Verhaegen, Marie Mignolet, Johann Goffin, Philippe Mahillon, Jacques Sass, Andrea Coenye, Tom Ledesma-Garcia, Laura Hols, Pascal eng Research Support, Non-U.S. Gov't 2022/01/29 mBio. 2022 Feb 22; 13(1):e0312521. doi: 10.1128/mbio.03125-21. Epub 2022 Jan 4"