Binding Site on Human von Willebrand Factor of Bitiscetin, a Snake Venom-Derived Platelet Aggregation Inducer

Bitiscetin, a C-type lectin-like heterodimeric snake venom protein purified from Bitis arietans, binds to human von Willebrand factor (VWF) and induces the platelet membrane glycoprotein (GP) Ib-dependent platelet agglutination in vitro similar to botrocetin. In contrast with botrocetin which binds...

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Bibliographic Details
Published in:Biochemistry (Easton) 2002-06, Vol.41 (25), p.7939-7946
Main Authors: Matsui, Taei, Hamako, Jiharu, Matsushita, Tadashi, Nakayama, Takayuki, Fujimura, Yoshihiro, Titani, Koiti
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Antibodies, Monoclonal - pharmacology
Binding Sites - drug effects
Binding Sites - genetics
Binding Sites - immunology
Binding, Competitive - drug effects
Binding, Competitive - immunology
Bitis arietans
Cell Line
Collagen - metabolism
Crotalid Venoms - metabolism
Crotalid Venoms - pharmacology
Humans
Models, Molecular
Molecular Sequence Data
Mutagenesis, Site-Directed
Peptides - immunology
Peptides - metabolism
Peptides - pharmacology
Platelet Activation - drug effects
Platelet Activation - immunology
von Willebrand Factor - genetics
von Willebrand Factor - immunology
von Willebrand Factor - metabolism
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Summary:Bitiscetin, a C-type lectin-like heterodimeric snake venom protein purified from Bitis arietans, binds to human von Willebrand factor (VWF) and induces the platelet membrane glycoprotein (GP) Ib-dependent platelet agglutination in vitro similar to botrocetin. In contrast with botrocetin which binds to the A1 domain of VWF, the A3 domain, a major collagen-binding site of VWF, was proposed to be a bitiscetin-binding site. In the competitive binding assay, neither bitiscetin nor botrocetin had an inhibitory effect on the VWF binding to the immobilized type III collagen on a plastic plate. The anti-VWF monoclonal antibody NMC-4, which inhibits VWF-induced platelet aggregation by binding to α4 helix of the A1 domain, also inhibited bitiscetin binding to the VWF. Binding of VWF to the immobilized bitiscetin was competitively inhibited by a high concentration of botrocetin. A panel of recombinant VWF, in which alanine-scanning mutagenesis was introduced to the charged amino acid residues in the A1 domain, showed that the bitiscetin-binding activity was reduced in mutations at Arg632, Lys660, Glu666, and Lys673 of the A1 domain. Those substituted at Arg629, Arg636, and Lys667, which decreased the botrocetin binding, showed no effect on the bitiscetin binding. These results indicate that bitiscetin binds to a distinct site in the A1 domain of VWF spanning over α4a, α5 helices and the loop between α5 and β6 but close to the botrocetin- and NMC-4-binding sites. Monoclonal antibodies recognizing the α-subunit of bitiscetin specifically inhibited bitiscetin-induced platelet agglutination without affecting the binding between VWF and bitiscetin, suggesting that the α-subunit of bitiscetin is located on VWF closer to the GPIb-binding site than the β-subunit is. Bitiscetin and botrocetin might modulate VWF by binding to the homologous region of the A1 domain to induce a conformational change leading to an increased accessibility to platelet GPIb.
ISSN:0006-2960
1520-4995
DOI:10.1021/bi020004b