Cameron Scott J, Ture Sara K, Mickelsen Deanne, Chakrabarti Enakshi, Modjeski Kristina L, McNitt Scott, Seaberry Michael, Field David J, Le Nhat-Tu, Abe Jun-Ichi, Morrell Craig N
From Aab Cardiovascular Research Institute, University of Rochester School of Medicine, NY (S.J.C., S.K.T., D.M., E.C., K.L.M., M.S., D.J.F., C.N.M.); Department of Medicine (S.J.C., C.N.M.) and Heart Research Follow-Up Program (S.M.), Division of Cardiology, University of Rochester School of Medicine, NY; and Department of Cardiology Research, Division of Internal Medicine, The University of Texas MD Anderson Cancer Center, Houston (N.-T.L., J.-i.A.).
Circulation. 2015 Jul 7;132(1):47-58. doi: 10.1161/CIRCULATIONAHA.115.015656. Epub 2015 May 1.
Platelets have a pathophysiologic role in the ischemic microvascular environment of acute coronary syndromes. In comparison with platelet activation in normal healthy conditions, less attention is given to mechanisms of platelet activation in diseased states. Platelet function and mechanisms of activation in ischemic and reactive oxygen species-rich environments may not be the same as in normal healthy conditions. Extracellular regulated protein kinase 5 (ERK5) is a mitogen-activated protein kinase family member activated in hypoxic, reactive oxygen species-rich environments and in response to receptor-signaling mechanisms. Prior studies suggest a protective effect of ERK5 in endothelial and myocardial cells after ischemia. We present evidence that platelets express ERK5 and that platelet ERK5 has an adverse effect on platelet activation via selective receptor-dependent and receptor-independent reactive oxygen species-mediated mechanisms in ischemic myocardium.
Using isolated human platelets and a mouse model of myocardial infarction (MI), we found that platelet ERK5 is activated post-MI and that platelet-specific ERK5(-/-) mice have less platelet activation, reduced MI size, and improved post-MI heart function. Furthermore, the expression of downstream ERK5-regulated proteins is reduced in ERK5(-/-) platelets post-MI.
ERK5 functions as a platelet activator in ischemic conditions, and platelet ERK5 maintains the expression of some platelet proteins after MI, leading to infarct expansion. This demonstrates that platelet function in normal healthy conditions is different from platelet function in chronic ischemic and inflammatory conditions. Platelet ERK5 may be a target for acute therapeutic intervention in the thrombotic and inflammatory post-MI environment.
血小板在急性冠状动脉综合征的缺血性微血管环境中具有病理生理作用。与正常健康状态下的血小板激活相比,疾病状态下血小板激活的机制较少受到关注。在缺血和富含活性氧的环境中,血小板功能及激活机制可能与正常健康状态下不同。细胞外调节蛋白激酶5(ERK5)是一种丝裂原活化蛋白激酶家族成员,在缺氧、富含活性氧的环境中以及对受体信号机制的反应中被激活。先前的研究表明,ERK5在缺血后对内皮细胞和心肌细胞具有保护作用。我们提供证据表明,血小板表达ERK5,并且血小板ERK5通过缺血心肌中选择性的受体依赖性和受体非依赖性活性氧介导机制对血小板激活产生不利影响。
使用分离的人血小板和心肌梗死(MI)小鼠模型,我们发现血小板ERK5在MI后被激活,并且血小板特异性ERK5基因敲除(-/-)小鼠的血小板激活较少、MI面积减小且MI后心脏功能改善。此外,MI后ERK5基因敲除(-/-)血小板中ERK5下游调节蛋白的表达降低。
ERK5在缺血条件下起血小板激活剂的作用,并且血小板ERK5在MI后维持一些血小板蛋白的表达,导致梗死扩展。这表明正常健康状态下的血小板功能不同于慢性缺血和炎症条件下的血小板功能。血小板ERK5可能是MI后血栓形成和炎症环境中急性治疗干预的靶点。
