Stress-dependent activation of the Listeria monocytogenes virulence program ensures bacterial resilience during infection
Mariya Lobanovska, Ying Feng, Jonathan Zhang, Allison H. Williams, Daniel A. Portnoy

TL;DR
This study shows how Listeria bacteria sense stress to activate their disease-causing program, ensuring survival during infection.
Contribution
The study identifies the stressosome as a key sensor linking stress to virulence activation in Listeria monocytogenes during infection.
Findings
The stressosome is essential for stress-dependent activation of the virulence regulator PrfA in Listeria.
Stressosome mutants show population heterogeneity in virulence behaviors like vacuolar escape and cell-to-cell spread.
Constitutive PrfA activation cannot rescue stressosome mutant defects, highlighting stressosome-specific signaling.
Abstract
Listeria monocytogenes (Lm) is a Gram-positive, facultative intracellular pathogen that uses both a housekeeping (P1) and stress-activated (Sigma B-dependent) promoter (P2) to express the master virulence regulator PrfA. The Sigma B regulon contains over 300 genes known to respond to different stressors. However, the role of Sigma B in the regulation of prfA during the infection remains uncertain. To define pathways that lead to Sigma B-dependent prfA activation, we performed a genetic screen in L2 fibroblasts using ΔP1 Lm that only has the Sigma B-dependent promoter directly upstream of prfA. The screen identified transposon insertions in a large bacterial sensory organelle known as the stressosome. The absence of functional stressosome components resulted in heterogeneity within bacterial populations, with some bacteria behaving like wild type, while other members of the population…
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Taxonomy
TopicsListeria monocytogenes in Food Safety · Essential Oils and Antimicrobial Activity · Microbial Inactivation Methods
