Solution structure of the major factor VIII binding region on von Willebrand factor

Although much of the function of von Willebrand factor (VWF) has been revealed, detailed insight into the molecular structure that enables VWF to orchestrate hemostatic processes, in particular factor VIII (FVIII) binding and stabilization in plasma, is lacking. Here, we present the high-resolution...

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Veröffentlicht in:	Blood 2014-06, Vol.123 (26), p.4143-4151
Hauptverfasser:	Shiltagh, Nuha, Kirkpatrick, John, Cabrita, Lisa D., McKinnon, Tom A.J., Thalassinos, Konstantinos, Tuddenham, Edward G.D., Hansen, D. Flemming
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Sprache:	eng
Schlagworte:	Binding Sites Crystallography, X-Ray Factor VIII - chemistry Factor VIII - genetics Factor VIII - metabolism Humans Protein Stability Protein Structure, Quaternary Protein Structure, Secondary Protein Structure, Tertiary Static Electricity Thrombosis and Hemostasis von Willebrand Factor - chemistry von Willebrand Factor - genetics von Willebrand Factor - metabolism
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description	Although much of the function of von Willebrand factor (VWF) has been revealed, detailed insight into the molecular structure that enables VWF to orchestrate hemostatic processes, in particular factor VIII (FVIII) binding and stabilization in plasma, is lacking. Here, we present the high-resolution solution structure and structural dynamics of the D′ region of VWF, which constitutes the major FVIII binding site. D′ consists of 2 domains, trypsin-inhibitor–like (TIL′) and E′, of which the TIL′ domain lacks extensive secondary structure, is strikingly dynamic and harbors a cluster of pathological mutations leading to decreased FVIII binding affinity (type 2N von Willebrand disease [VWD]). This indicates that the backbone malleability of TIL′ is important for its biological activity. The principal FVIII binding site is localized to a flexible, positively charged region on TIL′, which is supported by the rigid scaffold of the TIL′ and E′ domain β sheets. Furthermore, surface-charge mapping of the TIL′E′ structure reveals a potential mechanism for the electrostatically guided, high-affinity VWF⋅FVIII interaction. Our findings provide novel insights into VWF⋅FVIII complex formation, leading to a greater understanding of the molecular basis of the bleeding diathesis type 2N VWD. •The high-resolution structure of the complex disulfide-bonded TIL′E′ (D′) region of VWF is presented.•The major factor VIII binding site is localized around a flexible region on the TIL′ domain.
doi_str_mv	10.1182/blood-2013-07-517086
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Flemming</creatorcontrib><title>Solution structure of the major factor VIII binding region on von Willebrand factor</title><title>Blood</title><addtitle>Blood</addtitle><description>Although much of the function of von Willebrand factor (VWF) has been revealed, detailed insight into the molecular structure that enables VWF to orchestrate hemostatic processes, in particular factor VIII (FVIII) binding and stabilization in plasma, is lacking. Here, we present the high-resolution solution structure and structural dynamics of the D′ region of VWF, which constitutes the major FVIII binding site. D′ consists of 2 domains, trypsin-inhibitor–like (TIL′) and E′, of which the TIL′ domain lacks extensive secondary structure, is strikingly dynamic and harbors a cluster of pathological mutations leading to decreased FVIII binding affinity (type 2N von Willebrand disease [VWD]). This indicates that the backbone malleability of TIL′ is important for its biological activity. 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subjects	Binding Sites Crystallography, X-Ray Factor VIII - chemistry Factor VIII - genetics Factor VIII - metabolism Humans Protein Stability Protein Structure, Quaternary Protein Structure, Secondary Protein Structure, Tertiary Static Electricity Thrombosis and Hemostasis von Willebrand Factor - chemistry von Willebrand Factor - genetics von Willebrand Factor - metabolism
title	Solution structure of the major factor VIII binding region on von Willebrand factor
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