Simon-Ulysse Vallet scite author profile

Simon-Ulysse Vallet

2Publications

7Citation Statements Received

52Citation Statements Given

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University of Geneva

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Loss of Bacterial Cell Pole Stabilization inCaulobacter crescentusSensitizes to Outer Membrane Stress and Peptidoglycan-Directed Antibiotics

Vallet

Hansen

Bistrup

et al. 2019

Preprint

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AbstractRod-shaped bacteria frequently localise proteins to one or both cell poles in order to regulate processes such as chromosome replication or polar organelle development. However, the role of such polar factors in responses to extracellular stimuli has been generally unexplored. We employed chemical-genetic screening to probe the interaction between one such factor from Caulobacter crescentus, TipN, and extracellular stress and found that TipN is required for normal tolerance of cell envelope-directed antibiotics, including vancomycin that does not normally inhibit growth of Gram-negative bacteria. Forward genetic screening for suppressors of vancomycin sensitivity in the absence of TipN revealed the TonB-dependent receptor ChvT as the mediator of vancomycin tolerance. Loss of ChvT improved resistance to vancomycin and cefixime in the otherwise sensitive ΔtipN strain. The activity of the two-component system regulating ChvT (ChvIG) was increased in ΔtipN cells relative to wild type under some, but not all, cell wall stress conditions that this strain was sensitised to, in particular cefixime and detergent exposure. Together, these results indicate that the ChvIG two-component system has been co-opted as a sensor of cell wall stress and that TipN can influence cell envelope stability and ChvIG-mediated signaling in addition to its roles in intracellular development.Author summaryMaintenance of an intact cell envelope is essential for free-living bacteria to survive harsh conditions they may encounter in their environment. In the case of rod-shaped bacteria, the poles of the cell are potential weak points in the cell envelope due to the high curvature of the layers and the need to break and re-form parts of the cell envelope at the division plane in order to form new poles as the cells replicate and divide. We have found that TipN, a factor required for correct division and cell pole development in the rod-shaped bacterium, Caulobacter crescentus, is also needed for maintaining normal levels of resistance to cell wall-targeting antibiotics such as vancomycin and cefixime, which interfere with peptidoglycan synthesis. We also identified an outer membrane receptor, ChvT, that was responsible for allowing vancomycin access to the cells and found that the two-component system that negatively regulates ChvT production was activated by various kinds of cell wall stress. Presence or absence of TipN influenced how active this system was in the presence of cefixime or of the membrane-disrupting detergent sodium deoxycholate. Since TipN is normally located at the poles of the cell and at the division plane just before cells complete division, our results suggest that it is involved in stabilisation of these weak points of the cell envelope as well as its other roles inside the cell.

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β-helical protein PerA orchestrates antibiotic uptake across theCaulobacterouter membrane via converging stress signaling systems

Costafrolaz

Panis

Vallet

et al. 2023

Preprint

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While large membrane-impermeable antibiotics cannot traverse a lipid barrier, spacious importers such as TonB-dependent receptors (TBDRs) can mistakenly ferry antibiotics across the bacterial outer membrane (OM). We discovered that loss of PerA, an enigmatic β-helix protein in the OM of the oligotrophic α-proteobacterium Caulobacter crescentus, reprograms the OM TBDR proteome from ChvT that imports the glycopeptide antibiotic vancomycin to an uncharacterized TBDR (BugA) that confers sensitivity to the polypeptide antibiotic bacitracin. Both antibiotics are large zinc-binding molecules that target the peptidoglycan, echoing the zinc stress response induces destabilization of PerA. Inactivation of PerA launches two conserved and interwoven envelope stress programs that remodel the OM with TBDRs, a tripartite multidrug efflux pump and periplasmic proteases. Thus, unanticipated entry routes for antibiotics emerge in stressed diderm bacteria that may be treatable with membrane impermeable antimicrobials owing to an underlying transcriptional stress response pathways coordinated by a novel type of OM regulator.

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