Department of Medicine and.
Department of Medicine and Department of Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.
Blood. 2014 Sep 11;124(11):1824-31. doi: 10.1182/blood-2014-01-550319. Epub 2014 Jun 20.
Hemostatic thrombi formed after a penetrating injury have a distinctive structure in which a core of highly activated, closely packed platelets is covered by a shell of less-activated, loosely packed platelets. We have shown that differences in intrathrombus molecular transport emerge in parallel with regional differences in platelet packing density and predicted that these differences affect thrombus growth and stability. Here we test that prediction in a mouse vascular injury model. The studies use a novel method for measuring thrombus contraction in vivo and a previously characterized mouse line with a defect in integrin αIIbβ3 outside-in signaling that affects clot retraction ex vivo. The results show that the mutant mice have a defect in thrombus consolidation following vascular injury, resulting in an increase in intrathrombus transport rates and, as predicted by computational modeling, a decrease in thrombin activity and platelet activation in the thrombus core. Collectively, these data (1) demonstrate that in addition to the activation state of individual platelets, the physical properties of the accumulated mass of adherent platelets is critical in determining intrathrombus agonist distribution and platelet activation and (2) define a novel role for integrin signaling in the regulation of intrathrombus transport rates and localization of thrombin activity.
在穿透性损伤后形成的止血血栓具有独特的结构,其中高度激活、紧密堆积的血小板核心被较少激活、松散堆积的血小板外壳覆盖。我们已经表明,血栓内分子运输的差异与血小板堆积密度的区域差异同时出现,并预测这些差异会影响血栓的生长和稳定性。在这里,我们在小鼠血管损伤模型中检验了这一预测。这些研究使用了一种新的体内测量血栓收缩的方法和一种以前特征明确的、整合素 αIIbβ3 细胞外信号转导缺陷的小鼠品系,该缺陷影响血栓体外回缩。结果表明,突变小鼠在血管损伤后血栓的整合存在缺陷,导致血栓内运输速率增加,并且正如计算模型所预测的,血栓核心中的凝血酶活性和血小板活化降低。总的来说,这些数据表明,除了单个血小板的激活状态外,聚集的附着血小板的物理性质对于确定血栓内激动剂分布和血小板活化也是至关重要的,并且(2)定义了整合素信号在调节血栓内运输速率和凝血酶活性定位中的新作用。