Division of Hematology, Department of Medicine, Blood Research Center, The University of North Carolina at Chapel Hill, Chapel Hill, NC.
Department of Molecular Medicine, The Scripps Research Institute, La Jolla, CA.
Blood Adv. 2024 Jun 25;8(12):3272-3283. doi: 10.1182/bloodadvances.2023011907.
Sickle cell disease (SCD) is a hereditary hemoglobinopathy marked by hemolytic anemia and vaso-occlusive events (VOEs). Chronic endothelial activation, inflammation, and coagulation activation contribute to vascular congestion, VOEs, and end-organ damage. Coagulation proteases such as thrombin and activated protein C (APC) modulate inflammation and endothelial dysfunction by activating protease-activated receptor 1 (PAR1), a G-protein-coupled receptor. Thrombin cleaves PAR1 at Arg41, while APC cleaves PAR1 at Arg46, initiating either proinflammatory or cytoprotective signaling, respectively, a signaling conundrum known as biased agonism. Our prior research established the role of thrombin and PAR1 in vascular stasis in an SCD mouse model. However, the role of APC and APC-biased PAR1 signaling in thrombin generation, inflammation, and endothelial activation in SCD remains unexplored. Inhibition of APC in SCD mice increased thrombin generation, inflammation, and endothelial activation during both steady state and tumor necrosis factor α challenge. To dissect the individual contributions of thrombin-PAR1 and APC-PAR1 signaling, we used transgenic mice with point mutations at 2 PAR1 cleavage sites, ArgR41Gln (R41Q) imparting insensitivity to thrombin and Arg46Gln (R46Q) imparting insensitivity to APC. Sickle bone marrow chimeras expressing PAR1-R41Q exhibited reduced thrombo-inflammatory responses compared with wild type PAR1 or PAR1-R46Q mice. These findings highlight the potential benefit of reducing thrombin-dependent PAR1 activation while preserving APC-PAR1 signaling in SCD thromboinflammation. These results also suggest that pharmacological strategies promoting biased PAR1 signaling could effectively mitigate vascular complications associated with SCD.
镰状细胞病(SCD)是一种遗传性血红蛋白病,其特征为溶血性贫血和血管阻塞性事件(VOEs)。慢性内皮细胞激活、炎症和凝血激活导致血管充血、VOEs 和终末器官损伤。凝血蛋白酶如凝血酶和活化蛋白 C(APC)通过激活蛋白酶激活受体 1(PAR1)来调节炎症和内皮功能障碍,PAR1 是一种 G 蛋白偶联受体。凝血酶在 Arg41 处切割 PAR1,而 APC 在 Arg46 处切割 PAR1,分别启动促炎或细胞保护信号,这是一种称为偏向激动的信号难题。我们之前的研究确立了凝血酶和 PAR1 在 SCD 小鼠模型中血管淤滞中的作用。然而,APC 和 APC 偏向 PAR1 信号在 SCD 中的凝血酶生成、炎症和内皮激活中的作用仍未得到探索。在 SCD 小鼠中抑制 APC 会增加凝血酶生成、炎症和内皮激活,无论是在稳态还是肿瘤坏死因子α挑战期间。为了剖析凝血酶-PAR1 和 APC-PAR1 信号的单独贡献,我们使用了在 2 个 PAR1 切割位点具有点突变的转基因小鼠,ArgR41Gln(R41Q)赋予对凝血酶的不敏感性,Arg46Gln(R46Q)赋予对 APC 的不敏感性。表达 PAR1-R41Q 的镰状骨髓嵌合体与野生型 PAR1 或 PAR1-R46Q 小鼠相比,表现出较低的血栓炎症反应。这些发现强调了在 SCD 血栓炎症中减少依赖于凝血酶的 PAR1 激活而同时保留 APC-PAR1 信号的潜在益处。这些结果还表明,促进偏向性 PAR1 信号的药理学策略可以有效地减轻与 SCD 相关的血管并发症。
