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      Long-Term Antithrombotic Protection by in Vivo Depletion of Platelet Glycoprotein VI in Mice

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          Abstract

          Coronary artery thrombosis is often initiated by abrupt disruption of the atherosclerotic plaque and activation of platelets on the subendothelial layers in the disrupted plaque. The extracellular matrix protein collagen is the most thrombogenic constituent of the subendothelial layer; therefore, a selective inhibition of the collagen activation pathway in platelets may provide strong antithrombotic protection while preserving other platelet functions. Here we demonstrate that treatment of mice with a monoclonal antibody against the activating platelet collagen receptor glycoprotein VI (GPVI; JAQ1) results in specific depletion of the receptor from circulating platelets and abolished responses of these cells to collagen and collagen-related peptides (CRPs). JAQ1-treated mice were completely protected for at least 2 wk against lethal thromboembolism induced by infusion of a mixture of collagen (0.8 mg/kg) and epinephrine (60 μg/ml). The tail bleeding times in JAQ1-treated mice were only moderately increased compared with control mice probably because the treatment did not affect platelet activation by other agonists such as adenosine diphosphate or phorbol myristate acetate. These results suggest that GPVI might become a target for long-term prophylaxis of ischemic cardiovascular diseases and provide the first evidence that it is possible to specifically deplete an activating glycoprotein receptor from circulating platelets in vivo.

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          Most cited references52

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          The pathogenesis of coronary artery disease and the acute coronary syndromes (1).

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            The pathogenesis of coronary artery disease and the acute coronary syndromes (2).

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              Specific synergy of multiple substrate-receptor interactions in platelet thrombus formation under flow.

              We have used confocal videomicroscopy in real time to delineate the adhesive interactions supporting platelet thrombus formation on biologically relevant surfaces. Type I collagen fibrils exposed to flowing blood adsorb von Willebrand factor (vWF), to which platelets become initially tethered with continuous surface translocation mediated by the membrane glycoprotein Ib alpha. This step is essential at high wall shear rates to allow subsequent irreversible adhesion and thrombus growth mediated by the integrins alpha2beta1 and alpha(IIb)beta3. On subendothelial matrix, endogenous vWF and adsorbed plasma vWF synergistically initiate platelet recruitment, and alpha2beta1 remains key along with alpha(IIb)beta3 for normal thrombus development at all but low shear rates. Thus, hemodynamic forces and substrate characteristics define the platelet adhesion pathways leading to thrombogenesis.
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                Author and article information

                Contributors
                Journal
                J Exp Med
                The Journal of Experimental Medicine
                The Rockefeller University Press
                0022-1007
                1540-9538
                19 February 2001
                : 193
                : 4
                : 459-470
                Affiliations
                [a ]Department of Molecular Oncology, General Surgery, Witten/Herdecke University, 42117 Wuppertal, Germany
                [b ]Institut National de la Sante et de la Recherche Medicale U.311, Etablissement Français du Sang-Alsace, BP 36, 67065 Strasbourg Cedex, France
                Article
                001673
                10.1084/jem.193.4.459
                2195902
                11181698
                e4a575e2-21e0-4c4c-a981-6549e98b7734
                © 2001 The Rockefeller University Press
                History
                : 6 October 2000
                : 20 December 2000
                : 3 January 2001
                Categories
                Original Article

                Medicine
                collagen,thrombosis,mouse,receptor,immunotherapy
                Medicine
                collagen, thrombosis, mouse, receptor, immunotherapy

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