Von Willebrand Factor

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von Willebrand Factor

Human von Willenbrand factor A1 domain complex with Cd++ ion (gold) (PDB code 1auq)

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1 Introduction
2 Function
3 Structure
4 Disease
5 Interactions
6 3D structures of von Willibrand factor

Introduction

The von Willebrand Factor (VWF), observed by physician Erik von Willebrand, plays an important role in stopping the flow of blood. Hemostasis is the first step in healing a wound and is crucial for blood vessel repair. Located on chromosome 12, VWF interacts with functional domains such as the vascular wall, coagulation factor VIII, and platelet receptors ^[1].

Function

Upon a vascular injury, such as a paper cut, the von Willebrand factor binds to receptors on platelets, particularly glycoprotein Ib. VWF will also bind to components of the endothelial matrix, such as collagen ^[2]. Once it is bound to the receptors, factor VIII, and to matrix components, the factor will then create an adhesive bridge to the location of injury by the use of collagen and platelets. Factor VIII is important in activating the process of coagulation. After factor VIII becomes activated, it is cleaved by thrombin.

Structure

The von Willebrand factor contains four domains from A-D. The A and B domains contain 3 different domains and C has two domains, while D has four. Each domain plays a role in different functions. For example,

Domains D’ and D3 exhibit binding sites for factor VIII.
Domain A2 is the ADAMTS13 cleavage domain.
Domain C4 is the platelet integrin-binding domain.
Domain CTCK is the C-terminal cystine knot domain.

The structure of VWF was changed from the original thought structure in 1986. The original structure showed to be: D1-D2-D’-D3-A1-A2-A3-D4-B1-B2-B3-C1-C2-CK. However, the new shows the structure is D1-D2-D’-D3-A1-A2-A3-D4-C1-C2-C3-C4-C5-C6-CK ^[3]. The A1 domain of VWF is the binding site Ib alpha glycoprotein and for collagen. However, the is the main binding site for collagen type I and III. The A2 domain is responsible for binding the cleavage site to ADAMTS-13. ADAMTS-13 is a metalloprotease that cleaves the VWF between the tyrosine and methionine located on positions 842 and 843, respectively. The size of VWF is crucial as the bigger the factor, the abler the factor can anchor platelets.

Disease

As VWF plays a role in coagulation, defects in the VWF leads to an inherited bleeding disorder called von Willebrand Disease that affects 0.01%-1% of the population. The disease is characterized by low levels of VWF or a dysfunctional VWF. There are three different forms that vary between the degree of deficiency and function. Type one, the most common form, is distinguished by lower than normal levels of VWF. Type II is distinguished by normal levels, but improper function. The third and most severe type shows little to none activity of VWF ^[4]. As the von Willebrand Factor acts as a carrier protein for factor VIII, a deficiency can also cause Hemophilia.

Interactions

The von Willebrand factor is able to bind to multiple other molecules. Some of these interactions are what cause mutations and loss of functions which leads to von Willebrand Disease. A common molecule that inhibits the platelets activation of VWF is the DNA aptamer ARC1172. The aptamer to the A1 domain of the VWF which blocks glycoprotein Ib ability to bind ^[5]. Another DNA aptamer, ARC1779, is also able to bind and inhibit platelet activation. Calcium is another example that disrupts the process of coagulation on the von Willebrand factor. When calcium binds to the A2 domain, creating an , ADAMTS-13 is not able to cleave the VWF ^[6].

3D structures of von Willibrand factor

von Willibrand factor 3D structures

References

↑ Peyvandi F, Garagiola I, Baronciani L. Role of von Willebrand factor in the haemostasis. Blood Transfus. 2011 May;9 Suppl 2:s3-8. doi: 10.2450/2011.002S. PMID:21839029 doi:http://dx.doi.org/10.2450/2011.002S
↑ Desch KC. Regulation of plasma von Willebrand factor. F1000Res. 2018 Jan 23;7:96. doi: 10.12688/f1000research.13056.1. eCollection, 2018. PMID:29416854 doi:http://dx.doi.org/10.12688/f1000research.13056.1
↑ Lenting PJ, Christophe OD, Denis CV. von Willebrand factor biosynthesis, secretion, and clearance: connecting the far ends. Blood. 2015 Mar 26;125(13):2019-28. doi: 10.1182/blood-2014-06-528406. Epub 2015 , Feb 23. PMID:25712991 doi:http://dx.doi.org/10.1182/blood-2014-06-528406
↑ Echahdi H, El Hasbaoui B, El Khorassani M, Agadr A, Khattab M. Von Willebrand's disease: case report and review of literature. Pan Afr Med J. 2017 Jun 29;27:147. doi: 10.11604/pamj.2017.27.147.12248., eCollection 2017. PMID:28904675 doi:http://dx.doi.org/10.11604/pamj.2017.27.147.12248
↑ Huang RH, Fremont DH, Diener JL, Schaub RG, Sadler JE. A structural explanation for the antithrombotic activity of ARC1172, a DNA aptamer that binds von Willebrand factor domain A1. Structure. 2009 Nov 11;17(11):1476-84. PMID:19913482 doi:10.1016/j.str.2009.09.011
↑ Jakobi AJ, Mashaghi A, Tans SJ, Huizinga EG. Calcium modulates force sensing by the von Willebrand factor A2 domain. Nat Commun. 2011 Jul 12;2:385. doi: 10.1038/ncomms1385. PMID:21750539 doi:10.1038/ncomms1385

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Michal Harel, Kirsten Easley

Retrieved from "http://52.214.119.220/wiki/index.php/Von_Willebrand_Factor"

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 == Interactions ==
 The von Willebrand factor is able to bind to multiple other molecules. Some of these interactions are what cause mutations and loss of functions which leads to von Willebrand Disease. A common molecule that inhibits the platelets activation of VWF is the DNA aptamer ARC1172. The aptamer <scene name='77/778327/Arc1172/2'>binds</scene> to the A1 domain of the VWF which blocks glycoprotein Ib ability to bind <ref>PMID:19913482</ref>. Another DNA aptamer, ARC1779, is also able to bind and inhibit platelet activation. Calcium is another example that disrupts the process of coagulation on the von Willebrand factor. When calcium binds to the A2 domain, creating an <scene name='77/778327/Calcium/1'>A2-Ca2+ complex</scene>, ADAMTS-13 is not able to cleave the VWF <ref>DOI:10.1038/ncomms1385</ref>.
+== 3D structures of von Willibrand factor ==
+[[von Willibrand factor 3D structures]]
 </StructureSection>
 == References ==
 <references/>

Von Willebrand Factor

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Revision as of 10:07, 14 February 2019