The Interface between the EGF2 Domain and the Protease Domain in Blood Coagulation Factor IX Contributes to Factor VIII Binding and Factor X Activation

Abstract

The light chain of activated factor IX (FIXa) is involved in a number of functional properties, including FIXa enzymatic activity. This suggests the existence of a functional link between the FIXa light chain and the catalytic domain. The FIXa structure includes a few putative interactions between EGF2 and the protease domain. The role thereof has been addressed in this study. Recombinant FIX variants FIX-N92A, FIX-N92H, FIX-Y295A, and FIX-F299A were produced in 293 cells. After activation, the purified mutants were analyzed for a variety of functional parameters. None of these substitutions had a major effect on the interaction with antithrombin or the cleavage of the chromogenic substrate CH₃SO₂-d-CHG-Gly-Arg-p-nitroanilide. All FIXa mutants, however, exhibited a reduced level of factor X (FX) activation. Defective proteolytic activity occurred both in the absence and in the presence of activated factor VIII (FVIIIa). All mutants also exhibited a reduced level of FX activation in the absence of phospholipids. This suggests that putative interdomain contacts involving residues Asn⁹², Tyr²⁹⁵, and Phe²⁹⁹ affect reactivity toward FX. Detailed kinetic studies in the presence of phospholipids and FVIIIa revealed substrate inhibition, particularly for mutants FIXa-N92A and FIXa-N92H. Surface plasmon resonance demonstrated that the same replacements weaken the association with the isolated factor VIII (FVIII) A2 domain and the FVIII light chain. This implies a defect in the formation of the FX-activating complex that is membrane-independent. We conclude that contacts between EGF2 and the protease domain of FIXa are crucial for FIXa enzymatic activity and for the assembly of the FX-activating complex.