The P2Y1 receptor is essential for ADP-induced shape change and aggregation in mouse platelets.

Adenosine diphosphate (ADP) is an important platelet agonist, causing the shape change and aggregation required for physiological hemostasis. We have recently demonstrated that the P2Y1 receptor plays an important role in ADP-induced shape change and aggregation in human platelets. The role of the P2Y1 receptor in these physiological responses can be conclusively delineated with gene-knockout approaches in transgenic mice. However, before proceeding to the P2Y1 gene-knockout mice generation, it is important to demonstrate that the P2Y1 receptor plays an essential role in ADP-induced shape change and aggregation in mouse platelets. We examined platelets pooled from twenty 129J mice, a strain used in the generation of knockout mice. Immunofluorescence experiments using P2Y1 specific antiserum detected the presence of the P2Y1 receptor on mouse platelets. ARL 66096, a potent P2T(AC) receptor antagonist, caused a dose-dependent inhibition of both ADP-induced aggregation and ADP-induced inhibition of adenylyl cyclase, without affecting shape change or calcium mobilization. On the other hand, adenosine-2'-phosphate-5'-phosphate (A2P5P), a P2Y1 receptor-selective antagonist, caused a dose-dependent inhibition of ADP-induced aggregation and shape change, as well as inhibiting the mobilization of calcium from intracellular stores. A2P5P had no effect on the inhibition of adenylyl cyclase by ADP. These findings clearly demonstrate the existence of two distinct ADP receptors, the P2Y1 and P2T(AC), in mouse platelets with similar function as in human platelets.