Isaac Goncalves scite author profile

We have investigated the calcium signaling relationship between the two major platelet adhesion receptors, glycoprotein Ib/V/IX (GPIb/V/IX) and integrin ␣ IIb ␤ 3 , involved in regulating platelet adhesion on von Willebrand factor (vWf) under flow. Our studies demonstrate that GPIb engagement of immobilized vWf elicits a transient calcium spike that may function to promote reversible arrest of translocating platelets. Subsequent integrin ␣ IIb ␤ 3 engagement of vWf promotes sustained calcium oscillations that are essential for the maintenance of irreversible adhesion. GPIb-induced calcium spikes appear distinct from those initiated by integrin ␣ IIb ␤ 3 , in that the former are exclusively mediated through release of intracellular calcium stores via a signaling mechanism independent of PI 3-kinase. In contrast, integrin ␣ IIb ␤ 3 -dependent calcium flux involves a PI 3-kinase-dependent signaling mechanism linked to intracellular calcium mobilization and subsequent transmembrane calcium influx. Studies employing the caged calcium chelator (o-nitrophenyl-EGTA) demonstrate that transient calcium spikes initiate a transient phase of platelet arrest that is converted to irreversible adhesion with the development of sustained oscillatory calcium flux. These studies demonstrate the existence of a dual step calcium signaling mechanism utilized by GPIb and integrin ␣ IIb ␤ 3 that serves to regulate the dynamics of platelet adhesion under flow.

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Thrombin overcomes the thrombosis defect associated with platelet GPVI/FcRγ deficiency

Mangin

et al. 2006

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Fibrillar collagens are among the most potent activators of platelets and play an important role in the initiation of thrombosis. The glycoprotein VI (GPVI)/FcR␥-chain complex is a central collagen receptor and inhibitors of GPVI produce a major defect in arterial thrombogenesis. In this study we have examined arterial thrombus formation in mice lacking the GPVI/ FcR␥-chain complex (FcR␥ ؊/؊ ). Using 3 distinct arterial thrombosis models involving deep vascular injury, we demonstrate that deficiency of GPVI/FcR␥ is not associated with a major defect in arterial thrombus formation. In contrast, with milder vascular injury deficiency of GPVI/FcR␥ was associated with a 30% reduction in thrombus growth. Analysis of FcR␥ ؊/؊ platelets in vitro, using thrombin-dependent and -independent thrombosis models, demonstrated a major role for thrombin in overcoming the thrombosis defect associated with GPVI/FcR␥ deficiency. Inhibition of thrombin in vivo produced a much greater defect in thrombus formation in mice lacking GPVI/FcR␥ compared with normal controls. Similarly, thrombin inhibition produced a marked prolongation in bleeding time in FcR␥ ؊/؊ mice relative to wild-type mice. Our studies define an important role for thrombin in overcoming the hemostatic and thrombotic defect associated with GPVI/FcR␥ deficiency. Moreover, they raise the interesting possibility that the full antithrombotic potential of GPVI receptor antagonists may only be realized through the concurrent administration of anticoagulant agents. (Blood. 2006;107:4346-4353)

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Isaac Goncalves

PI 3-kinase p110β: a new target for antithrombotic therapy

Distinct Glycoprotein Ib/V/IX and Integrin αIIbβ3-dependent Calcium Signals Cooperatively Regulate Platelet Adhesion under Flow

Thrombin overcomes the thrombosis defect associated with platelet GPVI/FcRγ deficiency

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