<i>Salmonella</i> expresses foreign genes during infection by degrading their silencer
Jeongjoon Choi, Eduardo A. Groisman
Abstract
serovar Typhimurium decreases H-NS amounts 16-fold when inside macrophages. This decrease requires both the protease Lon and the DNA-binding virulence regulator PhoP. The decrease in H-NS abundance reduces H-NS binding to foreign DNA, allowing transcription of foreign genes, including those required for intramacrophage survival. The purified Lon protease degraded free H-NS but not DNA-bound H-NS. By displacing H-NS from DNA, the PhoP protein promoted H-NS proteolysis, thereby de-repressing foreign genes-even those whose regulatory sequences are not bound by PhoP. The uncovered mechanism enables a pathogen to express foreign virulence genes during infection without the need to evolve binding sites for antisilencing proteins at each foreign gene.