Structural and functional exploration of three newly identified coagulation factor IX mutations in Chinese hemophilia B patients.

Aim: To structurally and functionally characterize three newly identified F9 missense mutations, C268Y, I316F, and G413V, in Chinese hemophilia B patients.

Methods: FIX mutants were expressed in vitro by transient transfection of Chinese hamster ovary (CHO) cells. One-stage activated partial thromboplastin time (APTT) based assay and enzyme-linked immunosorbent assay (ELISA) were used to measure the coagulation activity and antigen level of FIX in conditioned medium. Western blot analysis was also used to evaluate interference of the mutations with synthesis and secretion of FIX. A structural model of the FIX G413V mutant was constructed and structural disturbance caused by the mutation was determined by molecular dynamics simulations.

Results: Both C268Y and I316F impaired expression of FIX. However, the I316F mutant degraded quickly, whereas the C268Y mutant mostly accumulated intracellularly. The G413V mutant could be synthesized and secreted normally, but procoagulant activity was almost completely lost. This loss is likely mostly due to the impact on the catalytic residue cS195.

Conclusion: The three FIX mutations identified in Chinese hemophilia B patients either impaired the expression of FIX, as was seen with the I316F and C268Y mutants, or impaired the function of FIX, as was seen with the G413V mutant.