Diabetic foot ulcers (DFU) are a serious complication of diabetes mellitus that burden patients and health care systems. Staphylococcus aureus is prevalent and abundant in the DFU microbiome, and strain-level differences in S. aureus may drive clinical outcomes. To identify mechanisms underlying strain-specific outcomes in DFU with S. aureus, we performed high-throughput phenotyping screens on a collection of 221 S. aureus cultured isolates from clinically uninfected DFU. Of the 4 phenotypes examined (in vitro biofilm formation and production of staphylokinase, staphyloxanthin, and siderophores), we discovered that isolates from non-healing wounds produced more staphyloxanthin, a carotenoid cell membrane pigment. In a murine diabetic wound healing model, staphyloxanthin-producing isolates delayed wound closure significantly compared to staphyloxanthin-deficient isolates. Staphyloxanthin promoted resistance to oxidative stress in vitro and enhanced bacterial survival in human neutrophils. Comparative genomic and transcriptomic analysis of genetically similar clinical isolates with disparate staphyloxanthin phenotypes revealed a mutation in the Sigma B regulatory pathway that resulted in marked differences in stress response gene expression. Our findings suggest that staphyloxanthin production delays wound healing by protecting S. aureus from neutrophil-mediated oxidative stress, and may provide a target for therapeutic intervention in S. aureus-positive wounds.
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