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Heat-shock proteases promote survival of <i>Pseudomonas aeruginosa</i> during growth arrest

David W. Basta, David Angeles-Albores, Melanie A. Spero, John A. Ciemniecki, Dianne K. Newman

2020Proceedings of the National Academy of Sciences49 citationsDOIOpen Access PDF

Abstract

to promote survival during growth arrest. Systematic deletion of the heat-shock protease-encoding genes reveals that the proteases function hierarchically during growth arrest, with FtsH and ClpXP having primary, nonredundant roles, and HslVU and Lon deploying a secondary response to aging stress. This hierarchy is partially conserved during growth at high temperature and alkaline pH, suggesting that heat, pH, and growth arrest effectively impose a similar type of proteostatic stress at the cellular level. In support of this inference, heat and growth arrest act synergistically to kill cells, and protein aggregation appears to occur more rapidly in protease mutants during growth arrest and correlates with the onset of cell death. Our findings suggest that protein aggregation is a major driver of aging and cell death during growth arrest, and that coordinated activity of the heat-shock response is required to ensure ongoing protein quality control in the absence of growth.

Topics & Concepts

ProteasesHeat shock proteinBiologyCell biologyProteaseHeat shockCell growthGeneProteostasisProgrammed cell deathGeneticsBiochemistryEnzymeApoptosisHeat shock proteins researchProtein Structure and DynamicsBacterial Genetics and Biotechnology