Heterogeneity of plasma von Willebrand factor multimers resulting from proteolysis of the constituent subunit.

@article{Dent1991HeterogeneityOP,
  title={Heterogeneity of plasma von Willebrand factor multimers resulting from proteolysis of the constituent subunit.},
  author={Judith A. Dent and Miriam Galbusera and Zaverio M. Ruggeri},
  journal={The Journal of clinical investigation},
  year={1991},
  volume={88 3},
  pages={
          774-82
        }
}
In this report we demonstrate that proteolytic cleavage of the constituent subunit is one of the causes determining the heterogeneous size distribution of plasma von Willebrand factor (vWf) multimers. As shown by two-dimensional nonreduced/reduced agarose/polyacrylamide gel electrophoresis, the structure of circulating vWf molecules may deviate from that represented by assemblage of a variable number of identical subunits. Indeed, even though the largest multimers in normal plasma appear to be… 
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Purification of human von Willebrand factor-cleaving protease and its identification as a new member of the metalloproteinase family.
TLDR
The purification of human vWF-cleaving protease from a commercial preparation of factor VIII/vWF concentrate by means of several column chromatographic steps, including 2 steps of heparin-Sepharose column, is reported.
Von Willebrand factor: molecular size and functional activity
  • M. Furlan
  • Biology, Medicine
    Annals of Hematology
  • 1996
TLDR
It appears that a conformational change in the vWF molecule exposes the specific protease-sensitive peptide bond and thus enhances degradation of vWF multimers, which plays an important role in pathogenesis of congenital or acquired disorders of hemostasis and thrombosis.
Partial purification and characterization of a protease from human plasma cleaving von Willebrand factor to fragments produced by in vivo proteolysis.
TLDR
The size, amino acid composition, and amino terminal sequence of the reduced fragments confirmed that the peptide bond 842Tyr-843Met had been cleaved, ie, the same bond that has been proposed to be cleaved in vivo.
Proteolysis of von Willebrand factor in therapeutic plasma concentrates.
TLDR
It is postulate that the loss of the largest vWF multimers in commercial products results from the use of poorly centrifuged plasmapheresis plasma containing an excessive number of residual platelets and leukocytes.
Two-dimensional analysis of the structure of human von Willebrand factor.
TLDR
A two-dimensional (2-D) method to analyze plasma vWF structure is described, which generates two fragments of 140-and 176-kDa, which originate from cleavage of peptide bond Tyr842-Met843 and which represent vWF residues 1-842 and 843-2050, respectively.
Physiologic cleavage of von Willebrand factor by a plasma protease is dependent on its conformation and requires calcium ion.
TLDR
The model that endothelial secreted vWF is converted to multimers by a novel plasma metalloproteinase is supported, as an alteration in the conformation by shear stress can lead to enhanced proteolytic susceptibility.
Different organization of von Willebrand factor oligomers in type-2A and -2B von Willebrand disease variants: effects of DDAVP infusion and protease inhibitors
TLDR
The findings suggest that, regardless of the origin, the disappearance of large circulating multimers in type-2A and-2B vWd induces an increased representation of the fast-moving satellite of the low-molecular-weight multimers.
Shear stress enhances the proteolysis of von Willebrand factor in normal plasma.
TLDR
Results show that shear stress is capable of enhancing the susceptibility of vWF to proteolytic cleavage and promotes vWF proteolysis in normal plasma at a site that generates the 140-KD/176-kD fragments, leading to a decrease in multimer size.
Structure of von Willebrand factor and its function in platelet adhesion and thrombus formation.
  • Z. Ruggeri
  • Biology
    Best practice & research. Clinical haematology
  • 2001
TLDR
This chapter presents a review of current knowledge on the structure, biosynthesis and functions of von Willebrand factor, a very large polymer composed of identical subunits.
Distinct role of von Willebrand factor triplet bands in glycoprotein Ib-dependent platelet adhesion and thrombus formation under flow.
TLDR
VWF forms lacking larger-size triplet bands appear to have a decreased potential to recruit platelets to collagen-bound VWF under arterial flow conditions, suggesting changes in triplet band distribution observed in patients with VWD may result in altered platelet adhesion at high-shear flow.
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It is concluded that human vWF contains identical 270K subunits assembled into a multivalent structure that is likely the primary factor responsible for the increase in biological activity with multimer size.
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The studies suggest that factor VII/vonWillebrand factor in IIA von Willebrand's disease is structurally different from that in other forms of the disorder and indicate that the multimeric composition of factor VIII/von Wille Brand factor is more complex than can be explained by simple linear polymerization of a single protomer.
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