Abstract
Staphylococcus aureus can cause disease through the production of toxins. Toxin production is autoinduced by the protein RNAIII-activating protein (RAP) and by the autoinducing peptide (AIP), and is inhibited by RNAIII-inhibiting peptide (RIP) and by inhibitory AIPs. RAP has been shown to be a useful vaccine target site, and RIP and inhibitory AIPs as therapeutic molecules to prevent and suppress S. aureus infections. Development of therapeutic strategies based on these molecules has been hindered by a lack of knowledge of the molecular mechanisms by which they activate or inhibit virulence. Here, we show that RAP specifically induces the phosphorylation of a novel 21-kDa protein, whereas RIP inhibits its phosphorylation. This protein was termed target of RAP (TRAP). The synthesis of the virulence regulatory molecule, RNAIII, is not activated by RAP in the trap mutant strain, suggesting that RAP activates RNAIII synthesis via TRAP. Phosphoamino acid analysis shows that TRAP is histidine-phosphorylated, suggesting that TRAP may be a sensor of RAP. AIPs up-regulate the synthesis of RNAIII also in trap mutant strains, suggesting that TRAP and AIPs activate RNAIII synthesis via distinct signal transduction pathways. Furthermore, TRAP phosphorylation is down-regulated in the presence of AIP, suggesting that a network of signal transduction pathways regulate S. aureus pathogenesis.
Highlights
Staphylococcus aureus is a Gram-positive bacteria that can cause many different types of diseases, ranging from minor skin infections to pneumonia, endocarditis, and toxin shock syndrome [1]
RNAIII-activating protein (RAP) Activates and RNAIII-inhibiting peptide (RIP) Inhibits RNAIII Synthesis and the Phosphorylation of a 21-kDa Protein—Early exponential wild type S. aureus cells were incubated for 40 min in the presence of RAP, synthetic RIP
The pathway by which the autoinducer RAP activates and the peptide RIP inhibits RNAIII synthesis was not known, but it was hypothesized that RAP and RIP interact with the same receptor, one as an agonist (RAP), the other as an antagonist (RIP)
Summary
Staphylococcus aureus is a Gram-positive bacteria that can cause many different types of diseases, ranging from minor skin infections to pneumonia, endocarditis, and toxin shock syndrome [1]. We show here that the phosphorylation of TRAP is inhibited by AIP of self, which uses the agr signal transduction system to activate RNAIII synthesis.
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