Sensor histidine kinases are widely used by prokaryotes to regulate gene expression in response to environmental signals, and such sensing is essential for virulence for plants and animals. PhoQ is one such sensor kinase that is conserved across a variety of Gram-negative pathogens and functions as part of a two-component system with its transcriptional regulator PhoP. Salmonella typhimurium PhoPQ is one of the most studied two-component systems and has been demonstrated to regulate hundreds of genes encoding the majority of virulence properties including intracellular survival, invasion, lipid A structure, resistance to antimicrobial peptides, and phagosome alteration. PhoQ is activated within acidified phagosomes and host tissues. PhoQ binds divalent cations to form bridges with the membrane that maintain the PhoQ repressed state. Antimicrobial peptides and acidic pH activate PhoQ and these signals, present within phagosomes and intestinal tissues, may serve as specific signatures of the host environment for Gram-negative pathogens. This review will focus on recent progress in the molecular details of PhoQ structure and sensing of defined signals. In addition, Pseudomonas aeruginosa and Salmonella typhimurium PhoQ are compared, providing evidence that a subset of PhoQ proteins of environmental organisms evolved more limited sensing capability using a different structural sensing mechanism.
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Atomic insights into the signaling landscape of E. coli PhoQ histidine kinase from molecular dynamics simulations.
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Institute of Biochemistry and Molecular Medicine (IBMM), University of Bern, Bühlstrasse 28, 3012, Bern, Switzerland.
Bacteria rely on two-component systems to sense environmental cues and regulate gene expression for adaptation. The PhoQ/PhoP system exemplifies this crucial role, playing a key part in sensing magnesium (Mg) levels, antimicrobial peptides, mild acidic pH, osmotic upshift, and long-chain unsaturated fatty acids, promoting virulence in certain bacterial species. However, the precise details of PhoQ activation remain elusive.
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Proc Natl Acad Sci U S A
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Max Planck Institute for Terrestrial Microbiology, 35043 Marburg, Germany.
A large number of small membrane proteins have been uncovered in bacteria, but their mechanism of action has remained mostly elusive. Here, we investigate the mechanism of a physiologically important small protein, MgrB, which represses the activity of the sensor kinase PhoQ and is widely distributed among enterobacteria. The PhoQ/PhoP two-component system is a master regulator of the bacterial virulence program and interacts with MgrB to modulate bacterial virulence, fitness, and drug resistance.
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Department of Food Science & Technology, School of Agriculture & Biology, and State Key Laboratory of Microbial Metabolism, Shanghai Jiao Tong University, Shanghai, China.
The two-component system (TCS) PhoPQ has been demonstrated to be crucial for the formation of resistance to quinolones and cephalosporins in Enteritidis ( Enteritidis). However, the mechanism underlying PhoPQ-mediated antibiotic resistance formation remains poorly understood. Here, it was shown that PhoP transcriptionally regulated an assortment of genes associated with envelope homeostasis, the osmotic stress response, and the redox balance to confer resistance to quinolones and cephalosporins in Enteritidis.
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J Appl Microbiol
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College of Resources and Environmental Sciences, China Agricultural University, Beijing 100193, China.
Aims: Rahnella aquatilis HX2, a promising plant growth-promoting rhizobacterium (PGPR) in the field, contains genes homologous to the PhoP/PhoQ two-component regulatory system. Although this system regulates stress response in numerous pathogens, PhoP/PhoQ characterization in a PGPR has not received in-depth exploration.
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German Center for Infection Research (DZIF), Braunschweig, Germany.
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