Dahlbäck Björn, Tran Sinh, Draczkowski Piotr
Department of Translational Medicine, Lund University, University Hospital, Malmö, Sweden.
Department of Translational Medicine, Lund University, University Hospital, Malmö, Sweden.
J Thromb Haemost. 2025 Mar;23(3):849-862. doi: 10.1016/j.jtha.2024.11.013. Epub 2024 Nov 29.
In the splice variant factor (F)V-Short, 702 residues are deleted from the B domain, resulting in exposure of an acid region (AR2; 1493-1537) that binds TFPIα. FV-Short and protein S serve as synergistic TFPIα cofactors in inhibition of FXa. In the preAR2 region, a hydrophobic patch PLVIVGL (1481-1487) is crucial for synergistic TFPIα-cofactor activity and assembly of FV-Short, TFPIα, and protein S.
To elucidate the importance of individual residues in the PLVIVGL patch for synergism between FV-Short and protein S as TFPIα cofactors.
An alanine scanning of the hydrophobic patch was performed in which 7 FV-Short variants were created. The synergistic TFPIα-cofactor activity was analyzed by FXa inhibition and a microtiter-based assay tested binding between the proteins. AlphaFold 3 was used to predict protein-protein interactions between FV-Short, protein S, and TFPIα.
Five of the 7 variants (V1483A, I1484A, V1485A, G1486A, and L1487A) demonstrated decreased synergistic TFPIα cofactor activity; in particular, G1486A and L1487A were severely affected. Neither wild-type FV-Short nor any of the mutants bound protein S in the absence of TFPIα. In the presence of TFPIα, wild-type FV-Short, P1481A, L1482A, and V1485A bound protein S, whereas V1483A, I1484A, G1486A, and L1487A did not. AlphaFold predicted an interaction between the hydrophobic patch in FV-Short and a hydrophobic patch in protein S involving residues 268-276 and 422-426.
Individual residues (V1483, I1484, G1486, and L1487) in the hydrophobic patch are demonstrated to be important for the synergistic TFPIα-cofactor activity and for the assembly of a trimolecular FXa-inhibitory complex.
在剪接变体因子(F)V-Short中,B结构域缺失702个残基,导致一个与组织因子途径抑制物α(TFPIα)结合的酸性区域(AR2;1493 - 1537)暴露。FV-Short和蛋白S在抑制因子Xa(FXa)过程中作为协同TFPIα辅因子发挥作用。在AR2前区域,一个疏水片段PLVIVGL(1481 - 1487)对于协同TFPIα辅因子活性以及FV-Short、TFPIα和蛋白S的组装至关重要。
阐明PLVIVGL片段中各个残基对于FV-Short和蛋白S作为TFPIα辅因子时协同作用的重要性。
对疏水片段进行丙氨酸扫描,构建了7种FV-Short变体。通过FXa抑制分析协同TFPIα辅因子活性,并采用基于微量滴定板的检测方法测试蛋白质之间的结合。使用AlphaFold 3预测FV-Short、蛋白S和TFPIα之间的蛋白质 - 蛋白质相互作用。
7种变体中的5种(V1483A、I1484A、V1485A、G1486A和L1487A)表现出协同TFPIα辅因子活性降低;特别是G1486A和L1487A受到严重影响。在没有TFPIα的情况下,野生型FV-Short和任何突变体均不与蛋白S结合。在有TFPIα存在时,野生型FV-Short、P1481A、L1482A和V1485A与蛋白S结合,而V1483A、I1484A、G1486A和L1487A则不结合。AlphaFold预测FV-Short中的疏水片段与蛋白S中的一个疏水片段之间存在相互作用,涉及残基268 - 276和422 - 426。
疏水片段中的个别残基(V1483、I1484、G1486和L1487)对于协同TFPIα辅因子活性以及三分子FXa抑制复合物的组装具有重要意义。
