ERO1α 在动脉血栓形成和缺血性中风中的关键作用。
A Critical Role for ERO1α in Arterial Thrombosis and Ischemic Stroke.
机构信息
Division of Hematology, Department of Medicine (V.J., T.K., G.B., J.W., J.L., J.G., L.A., T.L., J.C.), Washington University School of Medicine, St. Louis, MO.
Department of Hematology, Zhongnan Hospital of Wuhan University, Hubei, People's Republic of China (B.X.).
出版信息
Circ Res. 2023 May 26;132(11):e206-e222. doi: 10.1161/CIRCRESAHA.122.322473. Epub 2023 May 3.
BACKGROUND
Platelet adhesion and aggregation play a crucial role in arterial thrombosis and ischemic stroke. Here, we identify platelet ERO1α (endoplasmic reticulum oxidoreductase 1α) as a novel regulator of Ca signaling and a potential pharmacological target for treating thrombotic diseases.
METHODS
Intravital microscopy, animal disease models, and a wide range of cell biological studies were utilized to demonstrate the pathophysiological role of ERO1α in arteriolar and arterial thrombosis and to prove the importance of platelet ERO1α in platelet activation and aggregation. Mass spectrometry, electron microscopy, and biochemical studies were used to investigate the molecular mechanism. We used novel blocking antibodies and small-molecule inhibitors to study whether ERO1α can be targeted to attenuate thrombotic conditions.
RESULTS
Megakaryocyte-specific or global deletion of Ero1α in mice similarly reduced platelet thrombus formation in arteriolar and arterial thrombosis without affecting tail bleeding times and blood loss following vascular injury. We observed that platelet ERO1α localized exclusively in the dense tubular system and promoted Ca mobilization, platelet activation, and aggregation. Platelet ERO1α directly interacted with STIM1 (stromal interaction molecule 1) and SERCA2 (sarco/endoplasmic reticulum Ca-ATPase 2) and regulated their functions. Such interactions were impaired in mutant STIM1-Cys49/56Ser and mutant SERCA2-Cys875/887Ser. We found that ERO1α modified an allosteric Cys49-Cys56 disulfide bond in STIM1 and a Cys875-Cys887 disulfide bond in SERCA2, contributing to Ca store content and increasing cytosolic Ca levels during platelet activation. Inhibition of Ero1α with small-molecule inhibitors but not blocking antibodies attenuated arteriolar and arterial thrombosis and reduced infarct volume following focal brain ischemia in mice.
CONCLUSIONS
Our results suggest that ERO1α acts as a thiol oxidase for Ca signaling molecules, STIM1 and SERCA2, and enhances cytosolic Ca levels, promoting platelet activation and aggregation. Our study provides evidence that ERO1α may be a potential target to reduce thrombotic events.
背景
血小板黏附和聚集在动脉血栓形成和缺血性中风中起着至关重要的作用。在这里,我们发现血小板 ERO1α(内质网氧化还原酶 1α)是 Ca 信号的一种新型调节剂,也是治疗血栓性疾病的潜在药物靶点。
方法
利用活体显微镜、动物疾病模型和广泛的细胞生物学研究,证明了 ERO1α 在小动脉和动脉血栓形成中的病理生理作用,并证明了血小板 ERO1α 在血小板激活和聚集中的重要性。利用质谱、电子显微镜和生化研究来探讨分子机制。我们使用新型阻断抗体和小分子抑制剂来研究 ERO1α 是否可以作为靶点来减轻血栓形成。
结果
在小鼠中,巨核细胞特异性或全局 Ero1α 缺失同样减少了小动脉和动脉血栓形成中的血小板血栓形成,而不影响血管损伤后的尾巴出血时间和失血。我们观察到血小板 ERO1α 仅定位于致密管状系统,并促进 Ca 动员、血小板激活和聚集。血小板 ERO1α 与 STIM1(基质相互作用分子 1)和 SERCA2(肌浆/内质网 Ca-ATP 酶 2)直接相互作用,并调节它们的功能。这种相互作用在突变的 STIM1-Cys49/56Ser 和突变的 SERCA2-Cys875/887Ser 中受到损害。我们发现 ERO1α 修饰了 STIM1 中的一个别构 Cys49-Cys56 二硫键和 SERCA2 中的一个 Cys875-Cys887 二硫键,有助于血小板激活过程中的 Ca 储存含量和胞质 Ca 水平的增加。用小分子抑制剂而不是阻断抗体抑制 Ero1α 可减轻小鼠的小动脉和动脉血栓形成,并减少局灶性脑缺血后的梗死体积。
结论
我们的结果表明,ERO1α 作为 Ca 信号分子 STIM1 和 SERCA2 的硫醇氧化酶发挥作用,增加胞质 Ca 水平,促进血小板激活和聚集。我们的研究为 ERO1α 可能是减少血栓形成事件的潜在靶点提供了证据。
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