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>Staphylococcus aureus Rbf activates biofilm formation in vitro and promotes virulence in a murine foreign body infection model.
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Staphylococcus aureus Rbf activates biofilm formation in vitro and promotes virulence in a murine foreign body infection model.
We previously identified Rbf as an activator for biofilm formation on polystyrene surfaces in Staphylococcus aureus strain 8325-4. However, strain 8325-4 contains genetic mutations that may affect biofilm formation. To extend the observation to other strains, we used strain Newman, a weak biofilm producer, and strain UAMS-1, an osteomyelitis clinical strain, in this study. We found that mutations in the chromosomal rbf gene did not affect biofilm formation on polystyrene surfaces in these strains, but transformants of these strains carrying a multiple-copy plasmid containing the rbf gene formed stronger biofilms than the wild-type strains and the mutant strains. Using the flow cell method, we found that the chromosomal mutation in the rbf gene delayed biofilm formation, whereas strains with a plasmid containing the rbf gene accelerated biofilm formation in strains Newman and UAMS-1. These results led us to conclude that rbf is an activator of biofilm formation in different strains of S. aureus, although the degree of activation varies among strains. In a murine model of foreign body infection, the rbf mutations in strain Newman, but not in strain UAMS-1, reduced the bacterial survival rate in catheter lumen. However, UAMS-1 carrying multiple copies of rbf in a plasmid increased the bacterial survival rate. The animal studies therefore suggest that Rbf has a role in S. aureus virulence.
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