The Starvation-Stress Response (SSR) of Salmonella

Abstract

Salmonella serovars are common etiologic agents of intestinal-based disease of animals and humans. As a result of their lifestyle, salmonellae occupy and survive in a wide range of niches where they can encounter an even broader range of environmental stresses. One of the most common stresses is starvation for an essential nutrient such as a carbon/energy (C)-source. The genetic and physiologic changes that the bacterium undergoes in response to starvation-stress are referred to as the starvation-stress response or SSR. The genetic loci whose expression increases in response to the starvation-stress compose the SSR stimulon. Several loci of the SSR stimulon have been identified in Salmonella typhimurium and grouped, based on putative or known functions or products, into transport systems, C-compound catabolic enzymes, known protective enzymes, respiratory enzyme systems, regulatory proteins, virulence loci and unclassified products. The majority of loci identified are under positive control by the rpoS-encoded sigma factor, sigma S. However, a few are under (indirect) negative control by sigma S, but only during starvation-induced stationary phase. Most of the loci identified are also under either positive or negative control by the cAMP:CRP complex. For many, additional regulatory proteins (e.g. FadR, OxyR, and RelA and others) play a role in their regulation as well. Furthermore, most of the SSR loci identified are induced during other stresses or environmental conditions. For example, some are induced during P- or N-starvation, in addition to C-starvation; some are induced by extremes in pH or osmolarity; and some are induced in the intracellular environment of epithelial cells, and/or macrophages, and/or medium designed to mimic the intracellular milieu of mammalian cells (ISM). Several SSR loci are required for long-term starvation-survival (core SSR loci), e.g. narZ, dadA, stiC and rpoS. In addition, a few of the core SSR loci are also required for stress-specific-inducible and/or C-starvation-inducible resistance to H2O2 (e.g. stiC), thermal (e.g. stiC), and/or acid pH (e.g. narZ), challenge. Interestingly, C-starved cells are resistant to challenge with the antimicrobial peptide, polymyxin B. However, this resistance mechanism(s) is different from the resistance mechanisms for H2O2 and other environmental stresses. Furthermore, a link between the SSR and Salmonella virulence can be hypothesized since the two major regulators of the SSR, sigma s and cAMP:CRP, are required for full virulence of Salmonella. Moreover, the spv (Salmonella plasmid-associated virulence) genes, required for Salmonella to cause systemic disease, are C (and P- and N-)-starvation-inducible. However, a direct link between starvation-stress and virulence has not been established conclusively.