Aim: Pathogenic invasion of Staphylococcus aureus is critically dependent on host plasminogen activation. Materials & methods: The pathophysiological implications of the interactions between S. aureus recombinant enolase and host plasminogen were investigated. The effects of mutation and small synthetic peptide inhibitors on interactions were assessed. Results: In vitro, the S. aureus recombinant enolase exists as a catalytically active fragile octamer and a robust dimer. The dimer interacts with the host plasminogen on the S. aureus surface. Conclusion: The interaction of host plasminogen and S. aureus enolase might mediate bacterial adherence to the host, activate the plasminogen with the help of plasminogen activators and prevent α2-antiplasmin-mediated inhibition of plasmin. Incorporating mutant and synthetic peptides inhibited the interactions and their associated pathophysiological consequences.
Keywords: Staphylococcus aureus pathogenesis; bacterial adherence; bacterial invasion; enolase; moonlighting proteins; plasminogen activation.