Congenital factor X (FX) deficiency is a rare bleeding disorder that is inherited as an autosomal recessive trait. In this study, a genetic analysis of the FX gene was performed in five families with this disorder. Four heterozygous mutations [p.Gly154Arg, p.Val236Met, p.Gly263Val and p.Arg387Cys] and one pair of compound heterozygous FX gene mutations consisting of p.Gly406Ser and p.Val424Phe were identified. Mutant FX proteins containing the identified amino acid substitutions were also expressed in cultured cells. These proteins were analysed by enzyme-linked immunosorbent assay and pulse-chase experiments. The results demonstrated normal intracellular synthesis and extracellular secretion of mutant FX proteins carrying the p.Val236Met, p.Arg387Cys and p.Gly406Ser amino acid substitutions. However, the results also showed that the p.Gly154Arg, p.Gly263Val and p.Val424Phe proteins were secreted less efficiently than the wild-type protein, although they were synthesized normally in the cell. Collectively, these observations suggest that the amino acid substitutions p.Gly154Arg, p.Gly263Val and p.Val424Phe induce protein misfolding, leading to the intracellular degradation of many FX proteins containing any of these mutations, and ultimately to the development of FX deficiency. On the other hand, for the p.Val236Met, p.Arg387Cys and p.Gly406Ser mutant proteins, we hypothesize that secreted FX proteins have impaired coagulant activities due to functional defects caused by these amino acid substitutions.
Keywords: factor X deficiency; functional defect; genetic analysis; intracellular degradation; misfolding; missense mutation.
© 2018 John Wiley & Sons Ltd.