Abstract
Salmonella enterica serovar Typhimurium (S. Typhimurium) is one of the most used models for bacterial pathogenesis and successful infection requires its adaptation to the low oxygen environment in host gastrointestinal tracts. Central to this process is the Arc (aerobic respiratory control) two-component regulatory system that contains a sensor kinase ArcB and a response regulator ArcA. Nevertheless, a comprehensive profile of the ArcA regulon on the proteome level is still lacking in S. Typhimurium. Here we quantitatively profiled Salmonella proteome during anaerobiosis in an arcA-deleting mutant compared with its parental strain. In addition to known processes under its control, notably we found that ArcA represses ethanolamine utilization by directly binding to the promoter region of the eut operon. Furthermore, we found opposing changes of several bacterial genes on the protein and transcript levels in the arcA-deleting mutant including the virulence genes of Salmonella pathogenicity island 1 (SPI-1), thereby indicating potentially prevalent post-transcriptional regulatory mechanisms. Altogether, our study provides important new insights into ArcA-dependent bacterial physiology and virulence during Salmonella anaerobiosis.