Summary
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 show that the absence of EsxC, a small secreted effector implicated in bacterial persistence, results in cell membrane defects in S. aureus. Interestingly, isogenic mutants lacking EsxC, other T7SS effectors EsxA and EsxB, or the membrane-bound ATPase EssC, are more sensitive to killing by the host-derived antimicrobial fatty acid, linoleic acid (LA), compared to the wild-type (WT). LA induces more cell membrane damage in the T7SS mutants compared to the WT. Although WT and mutant strains did not differ in their ability to bind labelled LA, membrane lipid profiles show that T7SS mutants are less able to incorporate LA into their membrane phospholipids. Furthermore, proteomic analyses of WT and mutant cell fractions reveal that, in addition to compromising membranes, T7SS defects induce oxidative stress and hamper their response to LA challenge. Thus, our findings indicate that T7SS is crucial for S. aureus membrane integrity and homeostasis, which is critical when bacteria encounter antimicrobial fatty acids.
Footnotes
The manuscript has been revised to make changes in the first part of the results sections, Discussion and Figure 1. Additional figures and supplementary data have been included.