Hemophilia B is an X-linked recessive bleeding disorder caused by abnormalities of the coagulation factor IX gene (F9). Insertion mutations in F9 ranging from a few to more than 100 base pairs account for only a few percent of all hemophilia B cases. We investigated F9 to elucidate genetic abnormalities causing severe hemophilia B in a Japanese subject. We performed PCR-mediated analysis of F9 and identified a large insertion in exon 6. Next, we carried out direct sequencing of a PCR clone of the whole insert using nested deletion by exonuclease III and S1 nuclease. We identified an approximately 2.5-kb SINE-VNTR-Alu (SVA)-F element flanked by 15-bp duplications in the antisense orientation in exon 6. Additionally, we carried out exontrap analysis to assess the effect of this retrotransposition on mRNA splicing. We observed that regular splicing at exons 5 and 6 of F9 was disturbed by the SVA retrotransposition, suggesting that abnormal FIX mRNA may be reduced by nonsense-mediated mRNA decay. In conclusion, this is the first report of SVA retrotransposition causing severe hemophilia B; only five cases of LINE-1 or Alu retrotranspositions in F9 have been reported previously.
Antithrombin (AT) and thrombomodulin (TM) play important roles in the process of natural anticoagulation in vivo. Recently, we reported that the prothrombin Yukuhashi mutation (p.Arg596Leu) was associated with AT and TM resistance-related thrombophilia. To assess the AT and TM resistances associated with other missense mutations by single base substitution in the Arg596 codon, we generated recombinant variants (596Gln, 596Trp, 596Gly, and 596Pro) and investigated the effects on AT and TM anticoagulant functions. All variants except 596Pro were secreted in amounts comparable to that of the wild-type but exhibited variable procoagulant activities. After a 30-minute inactivation by AT, the relative residual activity of wild-type thrombin decreased to 15 ± 4.0 %, in contrast to values of all variants were maintained at above 80 %. The thrombin-AT complex formation, as determined by enzyme-linked immunosorbent assay, was reduced with all tested variants in the presence and absence of heparin. In the presence of soluble TM (sTM), the relative fibrinogen clotting activity of wild-type thrombin decreased to 16 ± 0.12 %, whereas that of tested variants was 37 %-56 %. In a surface plasmon resonance assay, missense Arg596 mutations reduced thrombin-TM affinity to an extent similar to the reduction of fibrinogen clotting inhibition. In the presence of sTM or cultured endothelial-like cells, APC generation was enhanced differently by variant thrombins in a thrombin-TM affinity-dependent manner. These data indicate that prothrombin Arg596 missense mutations lead to AT and TM resistance in the variant thrombins and suggest that prothrombin Arg596 is important for AT- and TM-mediated anticoagulation.
We identified diverse X chromosomal rearrangements in four haemophilia B patients, which might be caused by distinct mechanisms of genomic rearrangement.
Combined deficiency of factor V and factor VIII is a distinct clinical entity and is an autosomal recessive disorder. Recently identification of the gene, the endoplasmic reticulum-Golgi intermediate compartment (ERGIC-53), responsible for combined factor V-factor VIII deficiency and mutations of the ERGIC-53 gene in affected patients have been reported. In this report we analyzed two Japanese patients with combined factor V-factor VIII deficiency by genomic polymerase chain reaction and sequencing analysis. In one patient we found a point mutation of C to T at nucleotide 604 in exon 5, resulting in a transition of arginine to stop codon, which was reported in previous reports. The DdeI digestion study demonstrated that this patient is homozygous for this nonsense mutation. In the other patient we found no mutation in the ERGIC-53 gene in analysis of the entire coding region and the intron/exon junctions, which is also consistent with the previous reports, suggesting the possibility of defects at other genetic loci.
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