Bacteria can coordinate behavior in response to population density through the production, release, and detection of small molecules, a phenomenon known as quorum sensing. Salmonella enterica is among a group of Enterobacteriaceae that can detect signaling molecules of the N-acyl homoserine lactone (AHL) type but lack the ability to produce them. The AHLs are detected by the LuxR-type transcription factor, SdiA. This enables a behavior known as eavesdropping, where organisms can sense the signaling molecules of other species of bacteria. The role of SdiA remains largely unknown. Here, we use RNA-seq to more completely identify the sdiA regulons of two clinically significant serovars of Salmonella enterica: Typhimurium and Typhi. We find that their sdiA regulons are largely conserved despite the significant differences in pathogenic strategy and host range of these two serovars. Previous studies identified sdiA-regulated genes in Escherichia coli and Enterobacter cloacae, but there is surprisingly no overlap in regulon membership between the different species. This led us to individually test orthologs of each regulon member in the other species and determine that there is indeed some overlap. Unfortunately, the functions of most sdiA-regulated genes are unknown, with the overall function of eavesdropping in these organisms remaining unclear.
Importance: Many bacterial species detect their own population density through the production, release, and detection of small molecules (quorum sensing). Salmonella and other Enterobacteriaceae have a modified system that detects the N-acyl-homoserine lactones of other bacteria through the solo quorum sensing receptor SdiA, a behavior known as eavesdropping. The roles of sdiA-dependent eavesdropping in the lifecycles of these bacteria are unknown. In this study, we identify sdiA-dependent transcriptional responses in two clinically relevant serovars of Salmonella, Typhimurium and Typhi, and note that their responses are partially conserved. We also demonstrate for the first time that sdiA-dependent regulation of genes is partially conserved in Enterobacter cloacae and Escherichia coli as well, indicating a degree of commonality in eavesdropping among the Enterobacteriaceae.
Keywords: Enterobacter cloacae; Escherichia coli; Salmonella; SdiA; quorum sensing.