Journal
NATURE
Volume 409, Issue 6817, Pages 202-207Publisher
MACMILLAN PUBLISHERS LTD
DOI: 10.1038/35051599
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Platelets have a crucial role in the maintenance of normal haemostasis, and perturbations of this system can lead to pathological thrombus formation and vascular occlusion, resulting in stroke, myocardial infarction and unstable angina. ADP released from damaged vessels and red blood cells induces platelet aggregation through activation of the integrin GPIIb-IIIa and subsequent binding of fibrinogen. ADP is also secreted from platelets on activation, providing positive feedback that potentiates the actions of many platelet activators(1). ADP mediates platelet aggregation through its action on two G-protein-coupled receptor subtypes(2,3). The P2Y(1) receptor couples to G(q) and mobilizes intracellular calcium ions to mediate platelet shape change and aggregation(4,5). The second ADP receptor required for aggregation (variously called P2Y(ADP), P2Y(AC), P2Ycyc or P2T(AC)) is coupled to the inhibition of adenylyl cyclase through G(i). The molecular identity of the G(i)-linked receptor is still elusive, even though it is the target of efrcacious antithrombotic agents, such as ticlopidine and clopidogrel(6-8) and AR-C66096 (ref. 9). Here we describe the cloning of this receptor, designated P2Y(12), and provide evidence that a patient with a bleeding disorder(10) has a defect in this gene. Cloning of the P2Y12 receptor should facilitate the development of better antiplatelet agents to treat cardiovascular diseases.
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