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Use of an Interspecies Chimeric Receptor for Inducible Gene Expression Reveals that Metabolic Flux through the Peptidoglycan Biosynthesis Pathway is an Important Driver of Cephalosporin Resistance in Enterococcus faecalis

Carly A. Mascari, Dušanka Djorić, Jaime L. Little, Christopher J. Kristich

2022Journal of Bacteriology13 citationsDOIOpen Access PDF

Abstract

Enterococci are dangerous opportunistic pathogens with the potential to cause life-threatening infections due in part to their intrinsic resistance to cephalosporin antibiotics. Elucidating the molecular mechanisms that provide this resistance is critical for the development of strategies to both prevent and treat enterococcal infections. Here, we report that the cell wall synthesis enzyme, MurAA, drives cephalosporin resistance at least in part by controlling metabolic flux through the peptidoglycan synthesis pathway. To demonstrate this, we designed and validated an inducible gene expression system based on a chimeric receptor that is functional in multiple lineages of E. faecalis. In doing so, we provided a new tool for inducible gene expression with broad applications beyond our studies, including studies of essential genes.

Topics & Concepts

BiologyEnterococcus faecalisCephalosporinMicrobiologyPeptidoglycanGeneAntibioticsFlux (metallurgy)Antibiotic resistanceGeneticsEscherichia coliMetallurgyMaterials scienceAntimicrobial Resistance in StaphylococcusBacterial Identification and Susceptibility TestingInfective Endocarditis Diagnosis and Management