Molecular Characterization of the Interaction of Staphylococcal Microbial Surface Components Recognizing Adhesive Matrix Molecules (MSCRAMM) ClfA and Fbl with Fibrinogen

The ligand-binding domain of Fbl (the fibrinogen binding protein from Staphylococcuslugdunensis) shares 60% sequence identity with ClfA (clumping factor A) of Staphylococcus aureus. Recombinant Fbl corresponding to the minimum fibrinogen-binding region (subdomains N2N3) was compared with ClfA for bi...

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Veröffentlicht in:	The Journal of biological chemistry 2010-02, Vol.285 (9), p.6208-6216
Hauptverfasser:	Geoghegan, Joan A., Ganesh, Vannakambadi K., Smeds, Emanuel, Liang, Xiaowen, Höök, Magnus, Foster, Timothy J.
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Sprache:	eng
Schlagworte:	Adhesin Adhesins, Bacterial - metabolism Bacteria Bacterial Adhesion Binding Sites Coagulase - metabolism Crystal Structure Fibrinogen Fibrinogen - metabolism Microbiology Pathogen Protein Binding Protein Domains Protein Structure Staphylococci Staphylococcus - chemistry Staphylococcus - metabolism Staphylococcus aureus Surface Protein virulence
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container_issue	9
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container_title	The Journal of biological chemistry
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creator	Geoghegan, Joan A. Ganesh, Vannakambadi K. Smeds, Emanuel Liang, Xiaowen Höök, Magnus Foster, Timothy J.
description	The ligand-binding domain of Fbl (the fibrinogen binding protein from Staphylococcuslugdunensis) shares 60% sequence identity with ClfA (clumping factor A) of Staphylococcus aureus. Recombinant Fbl corresponding to the minimum fibrinogen-binding region (subdomains N2N3) was compared with ClfA for binding to fibrinogen. Fbl and ClfA had very similar affinities for fibrinogen by surface plasmon resonance. The binding site for Fbl in fibrinogen was localized to the extreme C terminus of the fibrinogen γ-chain at the same site recognized by ClfA. Isothermal titration calorimetry showed that Fbl and ClfA had very similar affinities for a peptide mimicking the C-terminal segment of the fibrinogen γ-chain. The peptide also inhibited binding of Fbl and ClfA to fibrinogen. A series of substituted γ-chain variant peptides behaved very similarly when used to inhibit ClfA and Fbl binding to immobilized fibrinogen. Both ClfA and Fbl bound to bovine fibrinogen with a lower affinity compared with human fibrinogen and did not bind detectably to ovine fibrinogen. The structure of the N2N3 subdomains of Fbl in complex with the fibrinogen γ-chain peptide was modeled based on the crystal structure of the N2N3 subdomains of the ClfA-γ-chain peptide complex. Residues in the putative binding trench likely to be involved in fibrinogen binding were identified. Fbl variant proteins with alanine substitutions in key residues had reduced affinities for fibrinogen. Thus Fbl and ClfA bind the same site in fibrinogen by similar mechanisms.
doi_str_mv	10.1074/jbc.M109.062208
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Recombinant Fbl corresponding to the minimum fibrinogen-binding region (subdomains N2N3) was compared with ClfA for binding to fibrinogen. Fbl and ClfA had very similar affinities for fibrinogen by surface plasmon resonance. The binding site for Fbl in fibrinogen was localized to the extreme C terminus of the fibrinogen γ-chain at the same site recognized by ClfA. Isothermal titration calorimetry showed that Fbl and ClfA had very similar affinities for a peptide mimicking the C-terminal segment of the fibrinogen γ-chain. The peptide also inhibited binding of Fbl and ClfA to fibrinogen. A series of substituted γ-chain variant peptides behaved very similarly when used to inhibit ClfA and Fbl binding to immobilized fibrinogen. Both ClfA and Fbl bound to bovine fibrinogen with a lower affinity compared with human fibrinogen and did not bind detectably to ovine fibrinogen. The structure of the N2N3 subdomains of Fbl in complex with the fibrinogen γ-chain peptide was modeled based on the crystal structure of the N2N3 subdomains of the ClfA-γ-chain peptide complex. Residues in the putative binding trench likely to be involved in fibrinogen binding were identified. Fbl variant proteins with alanine substitutions in key residues had reduced affinities for fibrinogen. 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The structure of the N2N3 subdomains of Fbl in complex with the fibrinogen γ-chain peptide was modeled based on the crystal structure of the N2N3 subdomains of the ClfA-γ-chain peptide complex. Residues in the putative binding trench likely to be involved in fibrinogen binding were identified. Fbl variant proteins with alanine substitutions in key residues had reduced affinities for fibrinogen. 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Recombinant Fbl corresponding to the minimum fibrinogen-binding region (subdomains N2N3) was compared with ClfA for binding to fibrinogen. Fbl and ClfA had very similar affinities for fibrinogen by surface plasmon resonance. The binding site for Fbl in fibrinogen was localized to the extreme C terminus of the fibrinogen γ-chain at the same site recognized by ClfA. Isothermal titration calorimetry showed that Fbl and ClfA had very similar affinities for a peptide mimicking the C-terminal segment of the fibrinogen γ-chain. The peptide also inhibited binding of Fbl and ClfA to fibrinogen. A series of substituted γ-chain variant peptides behaved very similarly when used to inhibit ClfA and Fbl binding to immobilized fibrinogen. Both ClfA and Fbl bound to bovine fibrinogen with a lower affinity compared with human fibrinogen and did not bind detectably to ovine fibrinogen. The structure of the N2N3 subdomains of Fbl in complex with the fibrinogen γ-chain peptide was modeled based on the crystal structure of the N2N3 subdomains of the ClfA-γ-chain peptide complex. Residues in the putative binding trench likely to be involved in fibrinogen binding were identified. Fbl variant proteins with alanine substitutions in key residues had reduced affinities for fibrinogen. Thus Fbl and ClfA bind the same site in fibrinogen by similar mechanisms.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>20007717</pmid><doi>10.1074/jbc.M109.062208</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adhesin Adhesins, Bacterial - metabolism Bacteria Bacterial Adhesion Binding Sites Coagulase - metabolism Crystal Structure Fibrinogen Fibrinogen - metabolism Microbiology Pathogen Protein Binding Protein Domains Protein Structure Staphylococci Staphylococcus - chemistry Staphylococcus - metabolism Staphylococcus aureus Surface Protein virulence
title	Molecular Characterization of the Interaction of Staphylococcal Microbial Surface Components Recognizing Adhesive Matrix Molecules (MSCRAMM) ClfA and Fbl with Fibrinogen
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