한빛사 논문
Jeongjoon Choia and Eduardo A. Groismana,b,1
aDepartment of Microbial Pathogenesis, Yale School of Medicine, New Haven, CT 06536; and bYale Microbial Sciences Institute, West Haven, CT 06516
1To whom correspondence may be addressed.
Abstract
The heat-stable nucleoid structuring (H-NS, also referred to as histone-like nucleoid structuring) protein silences transcription of foreign genes in a variety of Gram-negative bacterial species. To take advantage of the products encoded in foreign genes, bacteria must overcome the silencing effects of H-NS. Because H-NS amounts are believed to remain constant, overcoming gene silencing has largely been ascribed to proteins that outcompete H-NS for binding to AT-rich foreign DNA. However, we report here that the facultative intracellular pathogen Salmonella enterica 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.
heat-stable nucleoid structuring protein, Lon, PhoP
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