Abstract
Mechanisms responsible for delayed wound repair are poorly understood despite the common impact of this disorder on health. To study how Staphylococcus aureus disrupts healing, mouse and human wound repair models were evaluated after exposure to S. aureus or commensal Staphylococcus. Quorum sensing by S. aureus, but not S. hominis, delayed repair and inhibited the expression of genes responsible for lipid metabolism in keratinocytes. S. aureus with inactive accessory gene regulator (agr) did not delay healing, and the inhibition of lipid metabolism was recapitulated in vitro by synthetic phenol soluble modulin α1 (psmα1) and psmα4, genes that are under agr control. However, S. aureus strains with single deletion of psmA, psmB, alpha-hemolysin (hla), or hld gene continued to delay repair, suggesting that S. aureus used multiple agr-dependent virulence factors to disrupt healing. These observations provide insight into mechanisms for delayed wound healing, identify quorum sensing as a critical event, and highlight the role of lipid biosynthesis in wound reepithelialization.
Authors
Michelle D. Bagood, Jelena Marjanovic, Nina Jiang, Hung Chan, Tatsuya Dokoshi, Kellen J. Cavagnero, Fengwu Li, Andrea Roso-Mares, Samia Almoughrabie, Edward Liu, Irena Pastar, Marjana Tomic-Canic, Alexander R. Horswill, Richard L. Gallo
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ISSN: 0021-9738 (print), 1558-8238 (online)