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DipM controls multiple autolysins and mediates a regulatory feedback loop promoting cell constriction in Caulobacter crescentus

Adrian Izquierdo-Martinez, Maria Billini, Vega Miguel-Ruano, Rogelio Hernández-Tamayo, Pia Richter, Jacob Biboy, María Batuecas, Timo Glatter, Waldemar Vollmer, Peter L. Graumann, J.A. Hermoso, Martin Thanbichler

2023Nature Communications19 citationsDOIOpen Access PDF

Abstract

Proteins with a catalytically inactive LytM-type endopeptidase domain are important regulators of cell wall-degrading enzymes in bacteria. Here, we study their representative DipM, a factor promoting cell division in Caulobacter crescentus. We show that the LytM domain of DipM interacts with multiple autolysins, including the soluble lytic transglycosylases SdpA and SdpB, the amidase AmiC and the putative carboxypeptidase CrbA, and stimulates the activities of SdpA and AmiC. Its crystal structure reveals a conserved groove, which is predicted to represent the docking site for autolysins by modeling studies. Mutations in this groove indeed abolish the function of DipM in vivo and its interaction with AmiC and SdpA in vitro. Notably, DipM and its targets SdpA and SdpB stimulate each other's recruitment to midcell, establishing a self-reinforcing cycle that gradually increases autolytic activity as cytokinesis progresses. DipM thus coordinates different peptidoglycan-remodeling pathways to ensure proper cell constriction and daughter cell separation.

Topics & Concepts

Caulobacter crescentusPeptidoglycanCell biologyCytokinesisBiologyCell divisionBacterial cell structureLysostaphinBiochemistryCell wallCellChemistryCell cycleBacteriaGeneticsStaphylococcus aureusEnzyme Production and CharacterizationBacterial Genetics and BiotechnologyBacterial biofilms and quorum sensing
DipM controls multiple autolysins and mediates a regulatory feedback loop promoting cell constriction in Caulobacter crescentus | Litcius