Streptococcus pyogenes binds to the extracellular matrix (ECM) and a variety of host cells and tissues, causing diverse human diseases. Protein F, a S.pyogenes adhesin that binds fibronectin (Fn), contains two binding domains. A repeated domain (RD2) and an additional domain (UR), located immediately N‐terminal to RD2. Both domains are required for maximal Fn binding. In this study, we characterize RD2 and UR precisely and compare their functions and binding sites in Fn. The minimal functional unit of RD2 is of 44 amino acids, with contributions from two adjacent RD2 repeats flanked by a novel ‘MGGQSES’ motif. RD2 binds to the N‐terminal fibrin binding domain of Fn. UR contains 49 amino acids, of which six are from the first repeat of RD2. It binds to Fn with higher affinity than RD2, and recognizes a larger fragment that contains fibrin and collagen binding domains. Expression of UR and RD2 independently on the surface‐exposed region of unrelated streptococcal protein demonstrates that both mediate adherence of the bacteria to the ECM. We describe here a mechanism of adherence of a pathogen that involves two pairs of sites located on a single adhesin molecule and directed at the same host receptor.
The binding of Streptococcus pyogenes to fibronectin (FN) enables the adherence of this pathogen to target epithelial cells, which is the first necessary step for initiation of infection. Binding is mediated by a bacterial surface protein termed protein F. Here we provide the complete structure of protein F and identify two domains responsible for binding to fibronectin. The first domain is located towards the C-terminal end of the molecule and is composed of five repeats of 37 amino acids that are completely repeated four times and a fifth time partially. The second domain is adjacent to the first domain and is located on the N-terminal side of it. It is composed of a single stretch of 43 amino acids. Protein F expressed in Escherichia coli completely blocked the binding of fibronectin to S. pyogenes. However, mutant proteins that contained only one or the other of the two domains were only capable of partial blockage of binding. Complete blockage of binding of fibronectin could be achieved when a protein extract containing the N-terminal domain was mixed in a binding reaction with a protein extract containing the C-terminal domain. Similarly, a purified recombinant protein containing the two domains only, blocked the binding completely. In contrast, a purified recombinant protein containing just the C-terminal domain, blocked the binding partially. A clone exclusively expressing the C-terminal domain, completely blocked the binding of the 30 kDa N-terminal fragment of fibronectin to S. pyogenes, whereas a clone expressing the N-terminal domain failed to block the binding of this FN fragment.(ABSTRACT TRUNCATED AT 250 WORDS)
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