Maturation of coagulation factor IX during Xase formation as deduced using factor VIII‐derived peptides

Blood coagulation involves extrinsic and intrinsic pathways, which merge at the activation step of blood coagulation factor X to factor Xa. This step is catalysed by the extrinsic or intrinsic Xase, which consists of a complex of factor VIIa and its cofactor tissue factor or factor IXa (FIXa) and it...

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Veröffentlicht in:FEBS open bio 2019-08, Vol.9 (8), p.1370-1378
Hauptverfasser: Fang, Han, Zögg, Thomas, Brandstetter, Hans
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Sprache:eng
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Zusammenfassung:Blood coagulation involves extrinsic and intrinsic pathways, which merge at the activation step of blood coagulation factor X to factor Xa. This step is catalysed by the extrinsic or intrinsic Xase, which consists of a complex of factor VIIa and its cofactor tissue factor or factor IXa (FIXa) and its cofactor coagulation factor VIIIa (FVIIIa). Upon complex formation with FVIIIa, FIXa is conformationally activated to the Xase complex. However, the mechanistic understanding of this molecular recognition is limited. Here, we examined FVIIIa‐FIXa binding in the context of FIXa's activation status. Given the complexity and the labile nature of FVIIIa, we decided to employ two FVIII‐derived peptides (558‐loop, a2 peptide) to model the cofactor binding of FIX(a) using biosensor chip technology. These two FVIII peptides are known to mediate the key interactions between FVIIIa and FIXa. We found both of these cofactor mimetics as well as full‐length FVIIIa bind more tightly to zymogenic FIX than to proteolytically activated FIXa. Consequently and surprisingly, we observed that the catalytically inactive FIX zymogen can outcompete the activated FIXa from the complex with FVIIIa, resulting in an inactive, zymogenic Xase complex. By contrast, the thrombophilic Padua mutant FIXa‐R170 in complex with the protein–substrate analogue BPTI bound tighter to FVIIIa than to the zymogen form FIX‐R170L, suggesting that the active Xase complex preferentially forms in the Padua variant. Together, these results provide a mechanistic basis for the thrombophilic nature of the FIX‐R170L mutant and suggest the existence of a newly discovered safety measure within the coagulation cascade. Upon complex formation with coagulation factor VIIIa (FVIIIa), factor IXa (FIXa) is conformationally activated to the so‐called Xase complex. However, the mechanistic understanding of this molecular recognition is limited. Here, we employed two FVIII‐derived peptides (558‐loop, a2 peptide) to model the cofactor binding of FIX(a) using biosensor chip technology.
ISSN:2211-5463
2211-5463
DOI:10.1002/2211-5463.12653