Abstract
The Staphylococcus aureus type VII secretion system (T7SS) exports several proteins that are pivotal for bacterial virulence. The mechanisms underlying T7SS-mediated staphylococcal survival during infection nevertheless remain unclear. Here we report that S. aureus lacking T7SS components are more susceptible to host-derived antimicrobial fatty acids. Unsaturated fatty acids such as linoleic acid (LA) elicited an increased inhibition of S. aureus mutants lacking T7SS effectors EsxC, EsxA and EsxB, or the membrane-bound ATPase EssC, compared to the wild-type (WT). T7SS mutants generated in different S. aureus strain backgrounds also displayed an increased sensitivity to LA. Analysis of bacterial membrane lipid profiles revealed that the esxC mutant was less able to incorporate LA into its membrane phospholipids. Although the ability to bind labelled LA did not differ between the WT and mutant strains, LA induced more cell membrane damage in the T7SS mutants compared to the WT. Furthermore, proteomic analyses of WT and mutant cell fractions revealed that, in addition to compromising membranes, T7SS defects induce oxidative stress and hamper their response to LA challenge. Thus, our findings indicate that T7SS contribute to maintaining S. aureus membrane integrity and homeostasis when bacteria encounter antimicrobial fatty acids.
Highlights
The Staphylococcus aureus type VII secretion system (T7SS) exports several proteins that are pivotal for bacterial virulence
The increased susceptibility of T7SS mutants to antimicrobial fatty acids was not restricted to linoleic acid as when cultured in the presence of arachidonic acid, another unsaturated FA (C20:4), growth of ΔesxC and ΔessC was inhibited more as compared to the WT (Fig. 1E, F)
S. aureus is sensitive to unsaturated FAs, which are abundant in the human s kin[27,29,31,33,42]
Summary
The Staphylococcus aureus type VII secretion system (T7SS) exports several proteins that are pivotal for bacterial virulence. We report that S. aureus lacking T7SS components are more susceptible to host-derived antimicrobial fatty acids. The success of S. aureus as a deadly pathogen is attributed to an array of virulence factors that facilitate host tissue adhesion and immune response e vasion[4] One of these virulence factors is the type VII secretion system (T7SS), known as the ESAT-6 secretion system (ESS). S. aureus mutants lacking the entire T 7SS7 or specific T7SS components (EsxA, EssB, EssC, EsxC, EsxB, EsaB, EsaD or EsaE) were consistently shown to be less virulent and/or persistent in various mouse infection models[11,17,18,19,20,21]. The relevance of T7SS to S. aureus is less understood, a role for the toxin-antitoxin pair EsaD (or EssD) and EsaG (or EssI) was recently demonstrated in intraspecies c ompetition[9,15]
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