Leeds Institute for Cardiovascular and Metabolic Medicine, Leeds, UK.
Department of Internal Medicine I, University Hospital RWTH Aachen, Germany.
Haematologica. 2021 Jun 1;106(6):1616-1623. doi: 10.3324/haematol.2019.239558.
Complement C3 binds fibrinogen and compromises fibrin clot lysis thereby enhancing thrombosis risk. We investigated the role of fibrinogen-C3 interaction as a novel therapeutic target to reduce thrombosis risk by analysing: i) consistency in the fibrinolytic properties of C3, ii) binding sites between fibrinogen and C3 and iii) modulation of fibrin clot lysis by manipulating fibrinogen-C3 interactions. Purified fibrinogen and C3 from the same individuals (n=24) were used to assess inter-individual variability in the anti-fibrinolytic effects of C3. Microarray screening and molecular modelling evaluated C3 and fibrinogen interaction sites. Novel synthetic conformational proteins, termed Affimers, were used to modulate C3-fibrinogen interaction and fibrinolysis. C3 purified from patients with type 1 diabetes showed enhanced prolongation of fibrinolysis compared with healthy control protein [195±105 and 522±166 seconds, respectively (p=0.04)], with consistent effects but a wider range (5-51% and 5-18% lysis prolongation, respectively). Peptide microarray screening identified 2 potential C3-fibrinogen interactions sites within fibrinogen β chain (residues 424-433, 435-445). One fibrinogen-binding Affimer was isolated that displayed sequence identity with C3 in an exposed area of the protein. This Affimer abolished C3-induced prolongation of fibrinolysis (728±25.1 seconds to 632±23.7 seconds, p=0.005) and showed binding to fibrinogen in the same region that is involved in C3-fibrinogen interactions. Moreover, it shortened plasma clot lysis of patients with diabetes, cardiovascular disease or controls by 7-11%. C3 binds fibrinogen β-chain and disruption of fibrinogen-C3 interaction using Affimer proteins enhances fibrinolysis, which represents a potential novel target tool to reduce thrombosis in high risk individuals.
补体 C3 结合纤维蛋白原并损害纤维蛋白凝块的溶解,从而增加血栓形成的风险。我们通过分析以下内容来研究纤维蛋白原-C3 相互作用作为降低血栓形成风险的新治疗靶点的作用:i)C3 的纤维蛋白溶解特性的一致性,ii)纤维蛋白原和 C3 之间的结合位点,iii)通过操纵纤维蛋白原-C3 相互作用来调节纤维蛋白凝块的溶解。使用来自相同个体的纯化纤维蛋白原和 C3(n=24)来评估 C3 的抗纤维蛋白溶解作用的个体间变异性。微阵列筛选和分子建模评估了 C3 和纤维蛋白原相互作用位点。新型合成构象蛋白,称为 Affimers,用于调节 C3-纤维蛋白原相互作用和纤维蛋白溶解。与健康对照蛋白相比,来自 1 型糖尿病患者的 C3 显示出纤维蛋白溶解的延长增强[分别为 195±105 和 522±166 秒(p=0.04)],具有一致的作用,但范围更广(5-51%和 5-18%的纤维蛋白溶解延长)。肽微阵列筛选确定了纤维蛋白原 β 链内的 2 个潜在的 C3-纤维蛋白原相互作用位点(残基 424-433,435-445)。分离出一个纤维蛋白原结合 Affimer,该蛋白与蛋白质暴露区域中的 C3 具有序列同一性。该 Affimer 消除了 C3 诱导的纤维蛋白溶解延长(728±25.1 秒至 632±23.7 秒,p=0.005),并显示与纤维蛋白原在涉及 C3-纤维蛋白原相互作用的相同区域结合。此外,它缩短了糖尿病、心血管疾病或对照组患者的血浆凝块溶解 7-11%。C3 结合纤维蛋白原β 链,使用 Affimer 蛋白破坏纤维蛋白原-C3 相互作用可增强纤维蛋白溶解,这代表降低高风险个体血栓形成的潜在新治疗靶点工具。
