Abstract
Enterococcus faecalis is an opportunistic pathogen frequently isolated in clinical settings. This organism is intrinsically resistant to several clinically relevant antibiotics and can transfer resistance to other pathogens. Although E. faecalis has emerged as a major nosocomial pathogen, the mechanisms underlying the virulence of this organism remain elusive. We studied the regulation of daughter cell separation during growth and explored the impact of this process on pathogenesis. We demonstrate that the activity of the AtlA peptidoglycan hydrolase, an enzyme dedicated to septum cleavage, is controlled by several mechanisms, including glycosylation and recognition of the peptidoglycan substrate. We show that the long cell chains of E. faecalis mutants are more susceptible to phagocytosis and are no longer able to cause lethality in the zebrafish model of infection. Altogether, this work indicates that control of cell separation during division underpins the pathogenesis of E. faecalis infections and represents a novel enterococcal virulence factor. We propose that inhibition of septum cleavage during division represents an attractive therapeutic strategy to control infections.
Highlights
Enterococci are Gram-positive commensal bacteria colonizing the gastrointestinal tract of humans
Control of cell chains length is critical for E. faecalis virulence http://www.bbsrc.ac.uk/ The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
We show that control of septum cleavage during growth underpins the formation of diplococci and short chains, a property critical to cause lethality in the zebrafish model of infection
Summary
Enterococci are Gram-positive commensal bacteria colonizing the gastrointestinal tract of humans. They are opportunistic nosocomial pathogens that can cause a wide range of lifethreatening infections in immunocompromised patients or following antibiotic-induced dysbiosis [1]. The E. faecalis strains responsible for hospital-acquired infections are found in healthy individuals and genes associated with virulence are exclusively present in clinical isolates [7]. How this organism can cause infections remains poorly understood
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