Human signaling protein 14-3-3zeta interacts with platelet glycoprotein Ib subunits Ibalpha and Ibbeta.

The initiation of primary hemostasis is mediated by interaction of the platelet glycoprotein Ib (GPIb) surface receptor and its arterial subendothelial von Willebrand factor (vWF) ligand. The intracellular signaling immediately following GPIb receptor occupancy connecting the adhesive event to platelet activation and aggregation has not been well characterized. The 14-3-3 proteins are a 27- to 30-kD ubiquitous protein family with diverse biologic roles, including functional modulation of several prominent signaling proteins. We used the yeast two-hybrid system and confocal microscopy to characterize the recently described interaction between GPIb and platelet 14-3-3zeta, and provide evidence for the potential signaling role of this protein. Two-hybrid interactions suggest that platelet 14-3-3zeta associates with the cytoplasmic domain of GPIb subunits Ibalpha and Ibbeta in transformed yeast cells. The 14-3-3 interaction with GPIbbeta may be partly mediated through the latter's phosphorylated serine 166 residue as its mutagenesis results in 20% to 40% reduced interaction. There was 51% to 59% reduced interaction between GPIb and three 14-3-3zeta deletion mutants compared with full-length 14-3-3zeta, suggesting that either the N-terminal dimerization or membrane-binding domains or more than one noncontiguous 14-3-3zeta element may be required for optimal GPIb interaction. Confocal studies of platelets and a megakaryocyte cell line provided additional evidence for interaction of 14-3-3zeta with GPIbalpha and GPIbbeta. We also found that, similar to the signaling mediators phosphatidylinositol 3-kinase and Src, platelet cytoskeletal 14-3-3zeta content is increased following vWF and ristocetin stimulation. We suggest that platelet 14-3-3zeta interacts with GPIbalpha and Ibbeta, that this interaction may be partly mediated through phosphoserine recognition, and that 14-3-3zeta cytoskeletal translocation may serve as a GPIb post-receptor occupancy signaling event.