Mechanical stimuli activate gene expression via a cell envelope stress sensing pathway

Abstract: In tissues with mechanical function, the regulation of remodeling and repair processes is often controlled by mechanosensitive mechanisms; damage to the tissue structure is detected by changes in mechanical stress and strain, stimulating matrix synthesis and repair. While this mechanoregulatory feedback process is well recognized in animals and plants, it is not known whether such a process occurs in bacteria. In Vibrio cholerae, antibiotic-induced damage to the load-bearing cell wall promotes increased signal… Show more

“…A homologous system in the related bacterium V. parahaemolyticus has been proposed to bind β-lactams directly (18, 19), but strong evidence for this is lacking (20, 21). In addition, it is unlikely that β-lactams are the only activators of VxrAB; other structurally distinct antibiotics, overactive cell wall degradation enzymes, and mechanical stress also activate the system (14, 22). With numerous contributors to VxrA induction, we sought to uncover genetic pathways promoting activation of VxrAB to find genes involved in general cell wall homeostasis.…”

Disrupting central carbon metabolism increases antibiotic susceptibility inVibrio cholerae

“…A homologous system in the related bacterium V. parahaemolyticus has been proposed to bind β-lactams directly (18, 19), but strong evidence for this is lacking (20, 21). In addition, it is unlikely that β-lactams are the only activators of VxrAB; other structurally distinct antibiotics, overactive cell wall degradation enzymes, and mechanical stress also activate the system (14, 22). With numerous contributors to VxrA induction, we sought to uncover genetic pathways promoting activation of VxrAB to find genes involved in general cell wall homeostasis.…”

Disrupting central carbon metabolism increases antibiotic susceptibility inVibrio cholerae

Disrupting Central Carbon Metabolism Increases β-Lactam Antibiotic Susceptibility in Vibrio cholerae