In vitro phosphorylation of von Willebrand factor by FAM20c enhances its ability to support platelet adhesion.

Essentials Platelet adhesion to von Willebrand factor (VWF) is critical for hemostasis and thrombosis. Whether VWF can undergo phosphorylation is unknown. Family with sequence similarity 20 kinase phosphorylates VWF A2 domain at S1517 and S1613. Phosphorylation of VWF and VWF A1A2A3 domain at S1613 enhances platelet adhesion. SUMMARY: Background von Willebrand factor (VWF) mediates platelet adhesion and contributes to hemostasis at sites of vascular injury as well as to arterial thrombosis. The A1A2A3 domains of VWF contain important sites that differentially participate in supporting platelet adhesion. FAM20c (family with sequence similarity 20, member C) has emerged as a serine/threonine kinase, which phosphorylates extracellular proteins containing the S-X-E/pS motifs that are also found within the VWF A domains. This is of interest because we and others have shown that structural modifications within these A domains influence the ability of VWF to support platelet adhesion. Objective We assessed if VWF A domains can be phosphorylated and the functional consequence of phosphorylated VWF. Results Here, we show that FAM20c phosphorylated purified plasma VWF, VWF A1A2A3 protein, isolated A2 domain, but not A1 and A3 domain proteins, in vitro. FAM20c phosphorylated the isolated A2 domain at S1517 and S1613 within the S-X-E recognition motif, with S1613 being the major phosphorylation site. Mass spectrometry analysis of purified plasma VWF from healthy donors revealed several phosphorylation sites, including the S1613 in the A2 domain. VWF A1A2A3 domain protein phosphorylated at S1613 promoted stable platelet adhesion and microthrombi at high shear stress. Lastly, under high shear stress VWF treated with FAM20c and ATP robustly supported platelet adhesion, compared to VWF treated with FAM20c in the absence of ATP. Conclusion These outcomes indicate that VWF can be phosphorylated by FAM20c in vitro, and this novel post-translational modification enhances the adhesiveness of VWF to platelets.