Literature DB >> 16322474

Impact of mutations in the von Willebrand factor A2 domain on ADAMTS13-dependent proteolysis.

Wolf Achim Hassenpflug1, Ulrich Budde, Tobias Obser, Dorothea Angerhaus, Elke Drewke, Sonja Schneppenheim, Reinhard Schneppenheim.   

Abstract

Classical von Willebrand disease (VWD) type 2A, the most common qualitative defect of VWD, is caused by loss of high-molecular-weight multimers (HMWMs) of von Willebrand factor (VWF). Underlying mutations cluster in the A2 domain of VWF around its cleavage site for ADAMTS13. We investigated the impact of mutations commonly found in patients with VWD type 2A on ADAMTS13-dependent proteolysis of VWF. We used recombinant human ADAMTS13 (rhuADAMTS13) to digest recombinant full-length VWF and a VWF fragment spanning the VWF A1 through A3 domains, harboring 13 different VWD type 2A mutations (C1272S, G1505E, G1505R, S1506L, M1528V, R1569del, R1597W, V1607D, G1609R, I1628T, G1629E, G1631D, and E1638K). With the exception of G1505E and I1628T, all mutations in the VWF A2 domain increased specific proteolysis of VWF independent of the expression level. Proteolytic susceptibility of mutant VWF in vitro closely correlated with the in vivo phenotype in patients. The results imply that increased VWF susceptibility for ADAMTS13 is a constitutive property of classical VWD type 2A, thus explaining the pronounced proteolytic fragments and loss of HMWM seen in multimer analysis in patients.

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Year:  2005        PMID: 16322474     DOI: 10.1182/blood-2005-04-1758

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


  26 in total

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Authors:  Joshua Muia; Jian Zhu; Garima Gupta; Sandra L Haberichter; Kenneth D Friedman; Hendrik B Feys; Louis Deforche; Karen Vanhoorelbeke; Lisa A Westfield; Robyn Roth; Niraj Harish Tolia; John E Heuser; J Evan Sadler
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10.  Extensive contacts between ADAMTS13 exosites and von Willebrand factor domain A2 contribute to substrate specificity.

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