ABSTRACTThe bacterial adrenergic sensor kinases QseC and QseE respond to epinephrine and/or norepinephrine to initiate a complex phosphorelay regulatory cascade that modulates virulence gene expression in several pathogens. We have previously shown that QseC activates virulence gene expression inSalmonella entericaserovar Typhimurium. Here we report the role of QseE inS. Typhimurium pathogenesis as well as the interplay between these two histidine sensor kinases in gene regulation. AnS. TyphimuriumqseEmutant is hampered in the invasion of epithelial cells and intramacrophage replication. The ΔqseCstrain is highly attenuated for intramacrophage survival but has only a minor defect in invasion. However, the ΔqseECstrain has only a slight attenuation in invasion, mirroring the ΔqseCstrain, and has an intermediary intramacrophage replication defect in comparison to the ΔqseEand ΔqseCstrains. The expressions of thesipAandsopBgenes, involved in the invasion of epithelial cells, are activated by epinephrine via QseE. The expression levels of these genes are still decreased in the ΔqseECdouble mutant, albeit to a lesser extent, congruent with the invasion phenotype of this mutant. The expression level of thesifAgene, important for intramacrophage replication, is decreased in theqseEmutant and the ΔqseECdouble mutant grownin vitro. However, as previously reported by us, the epinephrine-dependent activation of this gene occurs via QseC. In the systemic model ofS. Typhimurium infection of BALB/c mice, theqseCandqseEmutants are highly attenuated, while the double mutant has an intermediary phenotype. Altogether, these data suggest that both adrenergic sensors play an important role in modulating several aspects ofS. Typhimurium pathogenesis.
H-NS is a part of a thermally controlled mechanism for bacterial gene regulation
