<i>Staphylococcus aureus</i> Proteins Implicated in the Reduced Virulence of <i>sarA</i> and <i>sarA/agr</i> Mutants in Osteomyelitis

<i>Staphylococcus aureus</i> Proteins Implicated in the Reduced Virulence of <i>sarA</i> and <i>sarA/agr</i> Mutants in Osteomyelitis

Using a murine osteomyelitis model, we recently demonstrated that <i>Staphylococcus aureus sarA</i> and <i>sarA/agr</i> mutants generated in the USA300 strain LAC are attenuated to a greater extent than an isogenic <i>agr</i> mutant and that this can be attributed...

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Main Authors: Karen E. Beenken, Mara J. Campbell, Stephanie D. Byrum, Rick D. Edmondson, Samuel G. Mackintosh, Alan J. Tackett, Mark S. Smeltzer
Format: Article
Language:English
Published: MDPI AG 2025-01-01
Series:Microorganisms
Subjects:
<i>Staphylococcus</i>
osteomyelitis
<i>sarA</i>
<i>agr</i>
protease
proteomics
Online Access:https://www.mdpi.com/2076-2607/13/1/181
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Summary:Using a murine osteomyelitis model, we recently demonstrated that <i>Staphylococcus aureus sarA</i> and <i>sarA/agr</i> mutants generated in the USA300 strain LAC are attenuated to a greater extent than an isogenic <i>agr</i> mutant and that this can be attributed to a significant extent to the increased production of extracellular proteases in both mutants. Based on this, we used a mass-based proteomics approach to compare the proteomes of LAC, its isogenic <i>agr</i>, <i>sarA</i>, and <i>sarA/agr</i> mutants, and isogenic derivatives of all four of these strains unable to produce the extracellular proteases aureolysin, SspA, SspB, ScpA, or SplA-F. This allowed us to identify proteins that were present in reduced amounts in <i>sarA</i>, and <i>sarA</i>/<i>agr</i> mutants owing to the increased production of extracellular proteases. A total of 1039 proteins were detected in conditioned media (CM) from overnight cultures of LAC, and protease-mediated degradation was shown to contribute to the reduced abundance of 224 of these (21.6%) in CM from the <i>sarA</i> and <i>sarA/agr</i> mutants. Among these were specific proteins previously implicated in the pathogenesis and therapeutic recalcitrance of <i>S. aureus</i> osteomyelitis. This demonstrates that the ability of <i>sarA</i> to limit protease production plays a key role in post-translational remodeling of the <i>S. aureus</i> proteome to a degree that can be correlated with reduced virulence in our osteomyelitis model, and that it does so irrespective of the functional status of <i>agr</i>. This also suggests that at least some of these 224 proteins may be viable targets for prophylactic or therapeutic intervention.
ISSN:2076-2607

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