Abstract
The A2 domain rapidly dissociates from activated factor VIII (FVIIIa) resulting in a dampening of the activity of the activated factor X-generating complex. The amino acid residues that affect A2 domain dissociation are therefore critical for FVIII cofactor function. We have now employed chemical footprinting in conjunction with mass spectrometry to identify lysine residues that contribute to the stability of activated FVIII. We hypothesized that lysine residues, which are buried in FVIII and surface-exposed in dissociated activated FVIII (dis-FVIIIa), may contribute to interdomain interactions. Mass spectrometry analysis revealed that residues Lys(1967) and Lys(1968) of region Thr(1964)-Tyr(1971) are buried in FVIII and exposed to the surface in dis-FVIIIa. This result, combined with the observation that the FVIII variant K1967I is associated with hemophilia A, suggests that these residues contribute to the stability of activated FVIII. Kinetic analysis revealed that the FVIII variants K1967A and K1967I exhibit an almost normal cofactor activity. However, these variants also showed an increased loss in cofactor activity over time compared with that of FVIII WT. Remarkably, the cofactor activity of a K1968A variant was enhanced and sustained for a prolonged time relative to that of FVIII WT. Surface plasmon resonance analysis demonstrated that A2 domain dissociation from activated FVIII was reduced for K1968A and enhanced for K1967A. In conclusion, mass spectrometry analysis combined with site-directed mutagenesis studies revealed that the lysine couple Lys(1967)-Lys(1968) within region Thr(1964)-Tyr(1971) has an opposite contribution to the stability of FVIIIa.
Highlights
Activated Factor VIII (FVIII) (FVIIIa) stability is critical for cofactor function
Lysine Residues within Region Thr1964-Tyr1971 Are Buried in FVIII and Not in Dissociated FVIII into the activated heterotrimeric protein (FVIIIa)—To identify FVIII lysine residues that are less prone to chemical modification in FVIII than in dis-FVIIIa, we labeled the lysine residues in plasma-derived FVIII with tandem mass tag (TMT)-126 and those in dis-FVIIIa with TMT-127
Lysine amino acid residues that are buried within the protein core of FVIII are expected to be completely protected from chemical modification by TMT-126
Summary
Activated FVIII (FVIIIa) stability is critical for cofactor function. Results: Mass spectrometry analysis reveals that Lys1967 and/or Lys1968 are buried in factor VIII and surface-exposed in dissociated FVIIIa. Mass spectrometry analysis combined with site-directed mutagenesis studies revealed that the lysine couple Lys1967-Lys1968 within region Thr1964Tyr1971 has an opposite contribution to the stability of FVIIIa. Factor VIII (FVIII) serves its role in the coagulation cascade as a cofactor for activated factor IX (FIXa) during the proteo-. We have employed chemical footprinting in conjunction with mass spectrometry to identify lysine residues that contribute to FVIIIa stability We hypothesized that those lysine residues, which are buried in FVIII and not in dissociated FVIIIa (dis-FVIIIa), may contribute to the interaction between the A2-a2 domain and the A1-a1/A3-C1-C2 dimer. To identify these residues, we took advantage of the notion that buried lysine residues are less prone to chemical modification than those that are exposed to the protein surface [29].
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