Cardiovascular Research Institute, University of California, San Francisco, CA 94158, USA.
Proc Natl Acad Sci U S A. 2010 Oct 26;107(43):18605-10. doi: 10.1073/pnas.1013309107. Epub 2010 Oct 7.
Toward understanding their redundancies and interactions in hemostasis and thrombosis, we examined the roles of thrombin receptors (protease-activated receptors, PARs) and the ADP receptor P2RY12 (purinergic receptor P2Y G protein-coupled 12) in human and mouse platelets ex vivo and in mouse models. Par3(-/-) and Par4(+/-) mouse platelets showed partially decreased responses to thrombin, resembling those in PAR1 antagonist-treated human platelets. P2ry12(+/-) mouse platelets showed partially decreased responses to ADP, resembling those in clopidogrel-treated human platelets. Par3(-/-) mice showed nearly complete protection against carotid artery thrombosis caused by low FeCl(3) injury. Par4(+/-) and P2ry12(+/-) mice showed partial protection. Increasing FeCl(3) injury abolished such protection; combining partial attenuation of thrombin and ADP signaling, as in Par3(-/-):P2ry12(+/-) mice, restored it. Par4(-/-) mice, which lack platelet thrombin responses, showed still better protection. Our data suggest that (i) the level of thrombin driving platelet activation and carotid thrombosis was low at low levels of arterial injury and increased along with the contribution of thrombin-independent pathways of platelet activation with increasing levels of injury; (ii) although P2ry12 acts downstream of PARs to amplify platelet responses to thrombin ex vivo, P2ry12 functioned in thrombin/PAR-independent pathways in our in vivo models; and (iii) P2ry12 signaling was more important than PAR signaling in hemostasis models; the converse was noted for arterial thrombosis models. These results make predictions being tested by ongoing human trials and suggest hypotheses for new antithrombotic strategies.
为了了解它们在止血和血栓形成中的冗余和相互作用,我们研究了凝血酶受体(蛋白酶激活受体,PAR)和 ADP 受体 P2RY12(嘌呤能受体 P2Y G 蛋白偶联受体 12)在人和小鼠血小板中的作用,包括在人和小鼠模型中的作用。Par3(-/-)和 Par4(+/-)小鼠血小板对凝血酶的反应部分减弱,类似于 PAR1 拮抗剂处理后的人血小板。P2ry12(+/-)小鼠血小板对 ADP 的反应部分减弱,类似于氯吡格雷处理后的人血小板。Par3(-/-)小鼠对由低 FeCl(3)损伤引起的颈总动脉血栓形成几乎完全有保护作用。Par4(+/-)和 P2ry12(+/-)小鼠显示部分保护作用。增加 FeCl(3)损伤会消除这种保护作用;将凝血酶和 ADP 信号的部分减弱结合起来,如在 Par3(-/-):P2ry12(+/-)小鼠中,恢复了这种保护作用。缺乏血小板凝血酶反应的 Par4(-/-)小鼠显示出更好的保护作用。我们的数据表明:(i)在低水平的动脉损伤下,驱动血小板激活和颈动脉血栓形成的凝血酶水平较低,随着损伤中凝血酶非依赖性血小板激活途径的贡献增加而增加;(ii)尽管 P2ry12 在体外增强了血小板对凝血酶的反应,但在我们的体内模型中,P2ry12 发挥了凝血酶/PAR 非依赖性途径的作用;(iii)在止血模型中,P2ry12 信号比 PAR 信号更重要,而在动脉血栓形成模型中则相反。这些结果使正在进行的人类临床试验做出了预测,并提出了新的抗血栓形成策略的假说。