Abstract
The Cpx-envelope stress system regulates the expression of virulence factors in many Gram-negative pathogens. In Salmonella enterica serovar Typhimurium deletion of the sensor kinase CpxA but not of the response regulator CpxR results in the down regulation of the key regulator for invasion, HilA encoded by the Salmonella pathogenicity island 1 (SPI-1). Here, we provide evidence that cpxA deletion interferes with dephosphorylation of CpxR resulting in increased levels of active CpxR and consequently in misregulation of target genes. 14 potential operons were identified to be under direct control of CpxR. These include the virulence determinants ecotin, the omptin PgtE, and the SPI-2 regulator SsrB. The Tat-system and the PocR regulator that together promote anaerobic respiration of tetrathionate on 1,2-propanediol are also under direct CpxR control. Notably, 1,2-propanediol represses hilA expression. Thus, our work demonstrates for the first time the involvement of the Cpx system in a complex network mediating metabolism and virulence function.
Highlights
An important group of bacterial regulatory sensing systems are the two-component systems, each of which enable bacteria to sense and respond to a specific subset of environmental changes and stress factors [1,2,3]
The Cpx envelope stress system is implicated in the invasion process of Salmonella into nonphagocytic cells which depends on the Salmonella pathogenicity island 1 (SPI-1) T3SS with HilA as the key transcriptional regulator [19, 20, 46]
Typhimurium knock out strains SHS01, NOS01 and VSM01 in comparison to the wild-type strain SL1344
Summary
An important group of bacterial regulatory sensing systems are the two-component systems, each of which enable bacteria to sense and respond to a specific subset of environmental changes and stress factors [1,2,3]. Cpx system’s contribution to metabolism and virulence regulation in Salmonella data collection and analysis, decision to publish, or preparation of the manuscript
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