Proteomic characterization of persisters in Enterococcus faecium

Abstract

BackgroundEnterococcus faecium is a Gram-positive bacterium, naturally present in the human intestinal microbiota, but is also an opportunistic pathogen responsible for healthcare-associated infections. Persisters are individuals of a subpopulation able to survive by arrest of growth coping with conditions that are lethal for the rest of the population. These persistent cells can grow again when the stress disappears from their environment and can cause relapses.ResultsIn this study, we highlighted that ciprofloxacin (10-fold the MIC) led to the formation of persister cells of E. faecium. The kill curve was typically biphasic with an initial drop of survival (more than 2 orders of magnitude reduction) followed by a constant bacterial count. Growth curves and antimicrobial susceptibility tests of these persisters were similar to those of the original cells. In addition, by genomic analyses, we confirmed that the persisters were genotypically identical to the wild type. Comparative proteomic analysis revealed that 56 proteins have significantly different abundances in persisters compared to cells harvested before the addition of stressing agent. Most of them were related to energetic metabolisms, some polypeptides were involved in transcription regulation, and seven were stress proteins like CspA, PrsA, ClpX and particularly enzymes linked to the oxidative stress response.ConclusionsThis work provided evidences that the pathogen E. faecium was able to enter a state of persister that may have an impact in chronic infections and relapses. Moreover, putative key effectors of this phenotypical behavior were identified by proteomic approach.