Propolypeptide of von Willebrand factor circulates in blood and is identical to von Willebrand antigen II

PJ Fay, Y Kawai, DD Wagner, D Ginsburg, D Bonthron… - Science, 1986 - science.org
PJ Fay, Y Kawai, DD Wagner, D Ginsburg, D Bonthron, BM Ohlsson-Wilhelm, SI Chavin…
Science, 1986science.org
The generally mild bleeding disorder of von Willebrand disease is associated with
abnormalities of two distinct plasma proteins, the large multimeric von Willebrand factor
(vWF), which mediates platelet adhesion, and von Willebrand antigen II (vW AgII), which is of
unknown function. The two proteins were found to have a common biosynthetic origin in
endothelial cells and megakaryocytes, which explains their simultaneous absence in the
severe form of this hereditary disease. Shared amino acid sequences from a 100-kilodalton …
The generally mild bleeding disorder of von Willebrand disease is associated with abnormalities of two distinct plasma proteins, the large multimeric von Willebrand factor (vWF), which mediates platelet adhesion, and von Willebrand antigen II (vW AgII), which is of unknown function. The two proteins were found to have a common biosynthetic origin in endothelial cells and megakaryocytes, which explains their simultaneous absence in the severe form of this hereditary disease. Shared amino acid sequences from a 100-kilodalton plasma glycoprotein and from vW AgII are identical to amino acid sequences predicted from a complementary DNA clone encoding the 5′ end of vWF. In addition, these proteins have identical molecular weights and immunologic cross reactivities. Monoclonal antibodies prepared against both proteins recognize epitopes on the pro-vWF subunit and on a 100-kilodalton protein that are not present on the mature vWF subunit in endothelial cell lysates. In contrast, polyclonal antibodies against vWF recognize both pro-vWF and vWF subunits. Thus, the 100-kilodalton plasma glycoprotein and vW AgII are identical proteins and represent an extremely large propolypeptide that is first cleaved from pro-vWF during intracellular processing and then released into plasma.
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