The Listeria monocytogenes σ(B) Regulon and Its Virulence-Associated Functions Are Inhibited by a Small Molecule

The stress-responsive alternative sigma factor σ(B) is conserved across diverse Gram-positive bacterial genera. In Listeria monocytogenes, σ(B) regulates transcription of >150 genes, including genes contributing to virulence and to bacterial survival under host-associated stress conditions, such as those encountered in the human gastrointestinal lumen. An inhibitor of L. monocytogenes σ(B) activity was identified by screening ~57,000 natural and synthesized small molecules using a high-throughput cell-based assay. The compound fluoro-phenyl-styrene-sulfonamide (FPSS) (IC(50) = 3.5 µM) downregulated the majority of genes previously identified as members of the σ(B) regulon in L. monocytogenes 10403S, thus generating a transcriptional profile comparable to that of a 10403S ΔsigB strain. Specifically, of the 208 genes downregulated by FPSS, 75% had been identified previously as positively regulated by σ(B). Downregulated genes included key virulence and stress response genes, such as inlA, inlB, bsh, hfq, opuC, and bilE. From a functional perspective, FPSS also inhibited L. monocytogenes invasion of human intestinal epithelial cells and bile salt hydrolase activity. The ability of FPSS to inhibit σ(B) activity in both L. monocytogenes and Bacillus subtilis indicates its utility as a specific inhibitor of σ(B) across multiple Gram-positive genera.