The alternative sigma factor RpoS (sigma S) is required for Salmonella virulence in mice. We report the immunizing capacity of Salmonella typhimurium rpoS and rpoS aroA mutants to protect susceptible BALB/c mice against subsequent oral challenge with virulent S. typhimurium. When administered orally or intraperitoneally, rpoS derivatives of the mouse-virulent S. typhimurium strains, C52 and SL1344, were highly attenuated and were efficient single-dose live vaccines. rpoS aroA mutants were more attenuated than corresponding single aroA or rpoS mutants, as assessed after oral or intraperitoneal administration, but retained significant ability to protect mice against salmonellosis. Salmonella rpoS and rpoS aroA mutants therefore deserve serious consideration for rational vaccine design. Consistent with this, Salmonella typhi Ty2, a 'wild-type' strain used widely for the development of human live-vaccine candidates against typhoid fever, was shown to be defective for rpoS. In addition, our results demonstrate that rpoS not only controls the growth and persistence of S. typhimurium in deep lymphoid organs, but also plays a role during the initial stages of oral infection.
In Salmonella enterica serovar Typhimurium, the stationary-phase sigma factor S (RpoS) is required for virulence, stress resistance, biofilm formation, and development of the rdar morphotype. This morphotype is a multicellular behavior characterized by expression of the adhesive extracellular matrix components cellulose and curli fimbriae. The Crl protein of Escherichia coli interacts with S and activates expression of Sregulated genes, such as the csgBAC operon encoding the subunit of the curli proteins, by an unknown mechanism. Here, we showed using in vivo and in vitro experiments that the Crl protein of Salmonella serovar Typhimurium is required for development of a typical rdar morphotype and for maximal expression of the csgD, csgB, adrA, and bcsA genes, which are involved in curli and cellulose biosynthesis. In vitro transcription assays and potassium permanganate reactivity experiments with purified His 6 -Crl showed that Crl directly activated S -dependent transcription initiation at the csgD and adrA promoters. We observed no effect of Crl on 70 -dependent transcription. Crl protein levels increased during the late exponential and stationary growth phases in Luria-Beratani medium without NaCl at 28°C. We obtained complementation of the crl mutation by increasing S levels. This suggests that Crl has a major physiological impact at low concentrations of S .
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