A 69-kDa protein has been identified on the surface of the Gram-negative pathogenBordetela peilussis that can elicit a protective immune response in animal models. This protein is associated with virulent strains ofB. pertussis but its function has remained unclear. In this report we demonstrate that purified preparations of the 69-kDa outer membrane protein can promote the attachment of Chinese hamster ovary (CHO) cells. The interaction between the mammalian cells and this protein can be specifically inhibited by an Arg-Gly-Asp (RGD)-containing synthetic peptide that is homologous with a region found in the 69-kDa protein sequence. These studies indicate that a specific cell binding site containing an Arg-GlyAsp sequence may be involved in the interaction of this bacterial protein with mammalian cell surfaces. To further investigate the role of this protein as a bacterial adhesin, a mutant of B. pertussis W28 that does not express the 69-kDa protein was constructed using the plasmid vector pRTP1. This mutant was 30-40% less efficient at adhering to CHO cells and to human HeLa cells than was the parent strain. These data support a role for this 69-kDa outer membrane protein in the attachment ofB. pertussis to mammalian cells. We propose the name "pertactin" for this protein.
A group of high-molecular-weight surface-exposed proteins of nontypeable Haemophilus influenzae are major targets of human serum antibody (S. J. Barenkamp and F. F. Bodor, Pediatr. Infect. Dis. J. 9:333-337, 1990). To further characterize these proteins, we cloned and sequenced genes encoding two related high-molecular-weight proteins from a prototype nontypeable Haemophilus strain. The gene encoding a 120-kDa Haemophilus protein consisted of a 4.4-kbp open reading frame, and the gene encoding a 125-kDa protein consisted of a 4.6-kbp open reading frame. The first 1,259 bp of the two genes were identical. Thereafter, the sequences began to diverge, but overall they were 80% identical, and the derived amino acid sequences showed 70% identity. A protein sequence homology search demonstrated similarity between the * Corresponding author.
Bordetella pertussis, the etiologic agent of whooping cough, produces an outer membrane-associated filamentous hemagglutinin (FHA) which is the major adhesin of this organism. FHA exhibits a lectin-like activity for heparin and dextran sulfate. By using in vitro adherence assays to cultured epithelial cells, the attachment of B. pertussis was reduced in the presence of sulfated polysaccharides such as heparin and dextran sulfate but not in the presence of dextran, indicating the crucial role of polysaccharide sulfation. In addition, inhibition of cellular sulfation by chlorate treatment of the cells resulted in a reduction of B. pertussis adherence, suggesting that epithelial cell surface-exposed sulfated glycoconjugates may serve as receptors for the microorganism. B. pertussis mutant strains deficient in FHA production expressed residual adherence that was no longer inhibited by sulfated polysaccharides. In addition, purified FHA displayed heparin-inhibitable binding to epithelial cells. Mapping experiments of the heparin-binding site of FHA indicated that this site is different from the RGD site and the recently proposed carbohydrate-binding site involved in the interaction of FHA with lactosylceramide. This result demonstrates that FHA contains at least three different binding sites, a feature unusual for bacterial adhesins but similar to features of eukaryotic adhesins and extracellular matrix proteins.
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