Decreased platelet aggregation, increased bleeding time and resistance to thromboembolism in P2Y1-deficient mice

Abstract

Platelet activation is characterized by shape change, induction of fibrinogen receptor expression and release of granular contents, leading to aggregation and plug formation¹. While this response is essential for hemostasis², it is also important in the pathogenesis of a broad spectrum of diseases, including myocardial infarction, stroke and unstable angina. Adenosine 5'-diphosphate (ADP) induces platelet aggregation, but the mechanism for this has not been established, and the relative contribution of ADP in hemostasis and the development of arterial thrombosis³ is poorly understood. We show here that the purinoceptor P2Y₁ is required for platelet shape change in response to ADP and is also a principal receptor mediating ADP-induced platelet aggregation. Activation of P2Y₁ resulted in increased intracellular calcium but no alteration in cyclic adenosine monophosphate (cAMP) levels. P2Y₁-deficient platelets partially aggregated at higher ADP concentrations, and the lack of P2Y₁ did not alter the ability of ADP to inhibit cAMP, indicating that platelets express at least one additional ADP receptor. In vivo, the lack of P2Y₁ expression increased bleeding time and protected from collagen- and ADP-induced thromboembolism. These findings support the hypothesis that the ATP receptor P2Y₁ is a principal receptor mediating both physiologic and pathological ADP-induced processes in platelets.