<p><i>Staphylococcus aureus</i> is a major cause of bloodstream infections, but how variation between strains in their ability to adhere to host proteins influences disease severity remains unclear. Here we show that adhesion is a highly variable and biologically important trait in 236 phylogenetically diverse, representative bacteremia isolates profiled for binding to fibrinogen and fibronectin and analysed together with bacterial whole-genome sequences and matched patients’ clinical data. Stronger fibrinogen-binding, particularly in strains lacking α-toxin, correlates with heightened systemic inflammation (<i>r</i> = 0.401, <i>P</i> = 0.0001) but lower mortality (16.6% vs. 38.7%, <i>P</i> = 0.018), linking bacterial adhesion to distinct clinical outcomes. Genome-wide association analyses identify top-associated variants in genes encoding known adhesins (<i>clfA</i>, <i>fnbA</i>, <i>fnbB</i>, <i>ebh</i>), other surface factors (<i>spa</i>, <i>sdrH</i>), mobile genetic elements, and novel loci (<i>csbB</i>, <i>glcA</i>), although not statistically significant. Functional analyses reveal that protein A limits ClfA-dependent fibrinogen binding through steric hindrance, CsbB interferes with ClfA exposure on bacterial surface, and GlcA enhances fibronectin binding via metabolic regulation. These findings define adhesion as a polygenic, evolutionarily variable trait and suggest that highly-adhesive, α-toxin-defective isolates promote inflammatory but self-limiting infections, whereas weakly adhesive, high-toxicity strains favour immune evasion and severe disease.</p>

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Genetic determinants of Staphylococcus aureus adhesion shape virulence trade-offs in bacteremia

  • Francesc Coll,
  • Paula Rożen,
  • Monika Budnik,
  • Halina Marchel,
  • Joan A. Geoghegan,
  • Katarzyna Holcman,
  • Magdalena Mizia-Szubryt,
  • Adrianna Berger-Kucza,
  • Aldona Olechowska-Jarząb,
  • Karol Makuch,
  • Coralie Bouchiat-Sarabi,
  • François Vandenesch,
  • Marta Zapotoczna

摘要

Staphylococcus aureus is a major cause of bloodstream infections, but how variation between strains in their ability to adhere to host proteins influences disease severity remains unclear. Here we show that adhesion is a highly variable and biologically important trait in 236 phylogenetically diverse, representative bacteremia isolates profiled for binding to fibrinogen and fibronectin and analysed together with bacterial whole-genome sequences and matched patients’ clinical data. Stronger fibrinogen-binding, particularly in strains lacking α-toxin, correlates with heightened systemic inflammation (r = 0.401, P = 0.0001) but lower mortality (16.6% vs. 38.7%, P = 0.018), linking bacterial adhesion to distinct clinical outcomes. Genome-wide association analyses identify top-associated variants in genes encoding known adhesins (clfA, fnbA, fnbB, ebh), other surface factors (spa, sdrH), mobile genetic elements, and novel loci (csbB, glcA), although not statistically significant. Functional analyses reveal that protein A limits ClfA-dependent fibrinogen binding through steric hindrance, CsbB interferes with ClfA exposure on bacterial surface, and GlcA enhances fibronectin binding via metabolic regulation. These findings define adhesion as a polygenic, evolutionarily variable trait and suggest that highly-adhesive, α-toxin-defective isolates promote inflammatory but self-limiting infections, whereas weakly adhesive, high-toxicity strains favour immune evasion and severe disease.