Abstract
Adhesion of platelets to sites of vascular injury is critical for hemostasis and thrombosis and is dependent on the binding of the vascular adhesive protein von Willebrand factor (vWf) to the glycoprotein (GP) Ib-V-IX complex on the platelet surface. A unique but poorly defined characteristic of this receptor/ligand interaction is its ability to support platelet adhesion under conditions of high shear stress. To examine the structural domains of the GPIb-V-IX complex involved in mediating cell adhesion under flow, we have expressed partial (GPIb-IX), complete (GPIb-V-IX), and mutant (GPIbalpha cytoplasmic tail mutants) receptor complexes on the surface of Chinese hamster ovary (CHO) cells and examined their ability to adhere to a vWf matrix in flow-based adhesion assays. Our studies demonstrate that the partial receptor complex (GPIb-IX) supports CHO cell tethering and rolling on a bovine or human vWf matrix under flow. The adhesion was specifically inhibited by an anti-GPIbalpha blocking antibody (AK2) and was not observed with CHO cells expressing GPIbbeta and GPIX alone. The velocity of rolling was dependent on the level of shear stress, receptor density, and matrix concentration and was not altered by the presence of GPV. In contrast to selectins, which mediate cell rolling under conditions of low shear (20-200 s-1), GPIb-IX was able to support cell rolling at both venous (150 s-1) and arterial (1500-10,500 s-1) shear rates. Studies with a mutant GPIbalpha receptor subunit lacking the binding domain for actin-binding protein demonstrated that the association of the receptor complex with the membrane skeleton is not essential for cell tethering or rolling under low shear conditions, but is critical for maintaining adhesion at high shear rates (3000-6000 s-1). These studies demonstrate that the GPIb-IX complex is sufficient to mediate cell rolling on a vWf matrix at both venous and arterial levels of shear independent of other platelet adhesion receptors. Furthermore, our results suggest that the association between GPIbalpha and actin-binding protein plays an important role in enabling cells to remain tethered to a vWf matrix under conditions of high shear stress.
Highlights
Adhesion of platelets to sites of vascular injury is critical for hemostasis and thrombosis and is dependent on the binding of the vascular adhesive protein von Willebrand factor to the glycoprotein (GP) Ib-V-IX complex on the platelet surface
To examine the structural domains of the GPIb-V-IX complex involved in mediating cell adhesion under flow, we have expressed partial (GPIb-IX), complete (GPIb-V-IX), and mutant (GPIb␣ cytoplasmic tail mutants) receptor complexes on the surface of Chinese hamster ovary (CHO) cells and examined their ability to adhere to a von Willebrand factor (vWf) matrix in flow-based adhesion assays
We examined the ability of immobilized bovine vWf (BvWf) to support adhesion of GPIb-IX-transfected CHO cells
Summary
Materials—The monoclonal antibodies (mAbs) WM23, AK2 (antiGPIb␣), and FMC25 (anti-GPIX) were generous donations from Prof. CHO cells were transfected with a set of three expression plasmids, which individually contained the cDNAs encoding for GPIb␣, GPIb, and GPIX. These plasmids were a kind gift from Dr Jose Lopez and were constructed using the pDX expression vector as described previously [14]. Control CHO cells were transfected with the expression vector pDX (containing no GPIb-IX cDNA) and pPNT(s) and selected under the same conditions. CHO cells expressing GPIb-IX (CHO-Ib-IX) were subsequently cotransfected with pDX containing GPV cDNA and a selection plasmid, pPB-3 (a gift from Dr Phil Bird), to confer hygromycin resistance. Statistical Analysis—Significant differences were detected using one-way analysis of variance and Student’s t test using the Prism software package (GraphPAD Software for Science, San Diego, CA)
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