Abstract
The relative involvement of the glycoprotein (GP) Ib/IX-von Willebrand factor (vWF) axis and GPIIb/IIIa in thrombus growth at high shear rates was assessed and compared by testing the pharmacological effects of VCL, a recombinant GPIb-binding fragment of vWF (residues 504-728), aurintricarboxylic acid (ATA), which binds to the 509-695 disulfide loop of vWF, and lamifiban, a specific synthetic GPIIb/IIIa antagonist. In vivo, their effects were evaluated in guinea pig mesenteric arteries, in a model of a laser-induced cyclic thrombotic process, and ex vivo, at a shear rate of 1800 s(-1), in a capillary perfusion chamber model, in which collagen-adherent platelets are exposed to nonanticoagulated guinea pig blood. In vivo, VCL, ATA, and lamifiban administered 2 minutes after intimal injuries stopped thrombus growth, prevented the cyclic thrombotic process, and induced gradual thrombus dissolution. Ex vivo, at 1800 s(-1), collagen exposure to untreated blood for 2 minutes, 4 minutes, or two consecutive periods of 2 minutes each resulted in similar platelet adhesion, 56%, 59%, and 61%, respectively, with an average thrombus volume of 6, 19, and 17.5 microm3/microm2, respectively, without any fibrin formation. This indicated that the two consecutive perfusions did not affect the dynamic process of thrombus growth. When collagen-adherent platelets deposited after the first 2-minute perfusion were perfused for 2 minutes with VCL-, ATA-, or lamifiban-treated blood, thrombus growth was prevented and platelet adhesion remained unchanged, but fibrin formation increased on and around the predeposited platelets. These results suggest that both the GPIb/IX-vWF axis and GPIIb/IIIa are involved in in vivo platelet-to-platelet interactions at high shear rates in the guinea pig.
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