Host-derived peptide signals regulate Pseudomonas aeruginosa virulence stress via the ParRS and CprRS two-component systems

Pseudomonas aeruginosa, a versatile bacterium, has dual significance because of its beneficial roles in environmental soil processes and its detrimental effects as a nosocomial pathogen that causes clinical infections. Understanding adaptability to environmental stress is essential. This investigati...

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Veröffentlicht in:	Journal of hazardous materials 2023-10, Vol.460, p.132512-132512, Article 132512
Hauptverfasser:	Zhao, Ning-Lin, Zhu, Zi-Qi, Feng, Han-Zhong, Song, Ying-Jie, Huang, Qin, Mou, Xing-Yu, Nong, Cheng, He, Yong-Xing, Bao, Rui
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Schlagworte:	Antimicrobial peptide stress antimicrobial peptides bacteria Biofilm cross infection Crystal structure domain harness pathogenesis pathogens phenotype Proteomic analysis proteomics Pseudomonas aeruginosa soil virulence
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creator	Zhao, Ning-Lin Zhu, Zi-Qi Feng, Han-Zhong Song, Ying-Jie Huang, Qin Mou, Xing-Yu Nong, Cheng He, Yong-Xing Bao, Rui
description	Pseudomonas aeruginosa, a versatile bacterium, has dual significance because of its beneficial roles in environmental soil processes and its detrimental effects as a nosocomial pathogen that causes clinical infections. Understanding adaptability to environmental stress is essential. This investigation delves into the complex interplay of two-component system (TCS), specifically ParRS and CprRS, as P. aeruginosa interprets host signals and navigates stress challenges. In this study, through phenotypic and proteomic analyses, the nuanced contributions of ParRS and CprRS to the pathogenesis and resilience mechanisms were elucidated. Furthermore, the indispensable roles of the ParS and CprS extracellular sensor domains in orchestrating signal perception remain unknown. Structural revelations imply a remarkable convergence of TCS sensors in interacting with host peptides, suggesting evolutionary strategies for bacterial adaptation. This pioneering work not only established links between cationic antimicrobial peptide (CAMP) resistance-associated TCSs and virulence modulation in nosocomial bacteria, but also transcended conventional boundaries. These implications extend beyond clinical resistance, permeating into the realm of soil revitalization and environmental guardianship. As it unveils P. aeruginosa intricacies, this study assumes a mantle of guiding strategies to mitigate clinical hazards, harness environmental advantages, and propel sustainable solutions forward. [Display omitted] •ParRS and CprRS regulate the resistance and pathogenesis of P. aeruginosa.•Dynorphin increases adaptive resistance to polymyxins in P. aeruginosa.•ParS and CprS sense dynorphin through the sensor domain.•The ParSSD-like HK sensor domain recognize dynorphin is conserved in bacterial TCS.
doi_str_mv	10.1016/j.jhazmat.2023.132512
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Understanding adaptability to environmental stress is essential. This investigation delves into the complex interplay of two-component system (TCS), specifically ParRS and CprRS, as P. aeruginosa interprets host signals and navigates stress challenges. In this study, through phenotypic and proteomic analyses, the nuanced contributions of ParRS and CprRS to the pathogenesis and resilience mechanisms were elucidated. Furthermore, the indispensable roles of the ParS and CprS extracellular sensor domains in orchestrating signal perception remain unknown. Structural revelations imply a remarkable convergence of TCS sensors in interacting with host peptides, suggesting evolutionary strategies for bacterial adaptation. This pioneering work not only established links between cationic antimicrobial peptide (CAMP) resistance-associated TCSs and virulence modulation in nosocomial bacteria, but also transcended conventional boundaries. These implications extend beyond clinical resistance, permeating into the realm of soil revitalization and environmental guardianship. As it unveils P. aeruginosa intricacies, this study assumes a mantle of guiding strategies to mitigate clinical hazards, harness environmental advantages, and propel sustainable solutions forward. 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These implications extend beyond clinical resistance, permeating into the realm of soil revitalization and environmental guardianship. As it unveils P. aeruginosa intricacies, this study assumes a mantle of guiding strategies to mitigate clinical hazards, harness environmental advantages, and propel sustainable solutions forward. 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These implications extend beyond clinical resistance, permeating into the realm of soil revitalization and environmental guardianship. As it unveils P. aeruginosa intricacies, this study assumes a mantle of guiding strategies to mitigate clinical hazards, harness environmental advantages, and propel sustainable solutions forward. [Display omitted] •ParRS and CprRS regulate the resistance and pathogenesis of P. aeruginosa.•Dynorphin increases adaptive resistance to polymyxins in P. aeruginosa.•ParS and CprS sense dynorphin through the sensor domain.•The ParSSD-like HK sensor domain recognize dynorphin is conserved in bacterial TCS.</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.jhazmat.2023.132512</doi><tpages>1</tpages></addata></record>
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subjects	Antimicrobial peptide stress antimicrobial peptides bacteria Biofilm cross infection Crystal structure domain harness pathogenesis pathogens phenotype Proteomic analysis proteomics Pseudomonas aeruginosa soil virulence
title	Host-derived peptide signals regulate Pseudomonas aeruginosa virulence stress via the ParRS and CprRS two-component systems
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