Abstract
Glycoprotein I(b)alpha (GP I(b)alpha), the ligand binding subunit of the platelet glycoprotein Ib-IX-V complex, is sulfated on three tyrosine residues (Tyr-276, Tyr-278, and Tyr-279). This posttranslational modification is known to be critical for von Willebrand factor (vWF) binding; yet it remains unclear whether it provides a specific structure or merely contributes negative charges. To investigate this issue, we constructed cell lines expressing GP I(b)alpha polypeptides with the three tyrosine residues converted to either Glu or Phe and studied the ability of these mutants to bind vWF in the presence of modulators or shear stress. The mutants were expressed normally on the cell surface as GP Ib-IX complexes, with the conformation of the ligand-binding domain preserved, as judged by the binding of conformation-sensitive monoclonal antibodies. In contrast to their normal expression, both mutants were functionally abnormal. Cells expressing the Phe mutant failed to bind vWF in the presence of either ristocetin or botrocetin. These cells adhered to and rolled on immobilized vWF only when their surface receptor density was increased to twice the level that supported adhesion of cells expressing the wild-type receptor and even then only 20% as many rolled and rolled significantly faster than wild-type cells. Cells expressing the Glu mutant, on the other hand, were normal with respect to ristocetin-induced vWF binding and adhesion to immobilized vWF but were markedly defective in botrocetin-induced vWF binding. These results indicate that GP I(b)alpha tyrosine sulfation influences the interaction of this polypeptide with vWF primarily by contributing negative charges under physiological conditions and when the interaction is induced by ristocetin but contributes a specific structure to the botrocetin-induced interaction.
Highlights
Glycoprotein Ib␣ (GP Ib␣), the ligand binding subunit of the platelet glycoprotein Ib-IX-V complex, is sulfated on three tyrosine residues (Tyr-276, Tyr-278, and Tyr279)
Cells expressing the Glu mutant, on the other hand, were normal with respect to ristocetin-induced von Willebrand factor (vWF) binding and adhesion to immobilized vWF but were markedly defective in botrocetin-induced vWF binding. These results indicate that GP Ib␣ tyrosine sulfation influences the interaction of this polypeptide with vWF primarily by contributing negative charges under physiological conditions and when the interaction is induced by ristocetin but contributes a specific structure to the botrocetin-induced interaction
Tyrosine sulfation is a widespread posttranslational protein modification that occurs in the trans-Golgi compartment where it is catalyzed by the membrane-bound enzyme, aryl sulfotransferase [15, 35,36,37]
Summary
Glycoprotein Ib␣ (GP Ib␣), the ligand binding subunit of the platelet glycoprotein Ib-IX-V complex, is sulfated on three tyrosine residues (Tyr-276, Tyr-278, and Tyr279) This posttranslational modification is known to be critical for von Willebrand factor (vWF) binding; yet it remains unclear whether it provides a specific structure or merely contributes negative charges. To investigate this issue, we constructed cell lines expressing GP Ib␣ polypeptides with the three tyrosine residues converted to either Glu or Phe and studied the ability of these mutants to bind vWF in the presence of modulators or shear stress. The platelet receptor for von Willebrand factor (vWF), the glycoprotein (GP) Ib-IX-V complex, is composed of four polypep-
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