Identification of deletion carriers in hemophilia B: quantitative real-time polymerase chain reaction or multiple ligation probe amplification.

Gross deletions in the F9 gene are easily detected by routinely sequencing hemophilia B-affected men. Nevertheless, a carrier diagnosis proves difficult as the presence of a normal allele does not recognize the partial or complete loss of the F9 gene and may be challenging if no DNA sample from affected men is available. This work aimed to identify hemophilia carriers in 2 families in which gross deletions of the F9 gene could be expected. The indirect genetic study was not conclusive, and sequencing did not show genetic defects in family 1. A real-time polymerase chain reaction (RT-PCR) assay using SYBR Green revealed the deletion of a copy of exon 8 in 3 women, whereas the multiple ligation-dependent probe amplification (MLPA) assay showed the deletion of a copy of exons 7 and 8 in these 3 women. These studies enabled us not only to rule out a pregnant woman as a carrier but also to confirm a complete deletion of the gene in the patient from family 2 and the heterozygous state of his mother. The advantages that the MLPA method offers are the identification of a multiple exon deletion in the same assay and commonly used technology. The RT-PCR technology used involves standardizing and analyzing each exon independently.

Novel missense mutation c.2685G>C (p.Q895H) in VWF gene associated with very low levels of VWF mRNA.

Homozygous patients for null alleles in VWF gene show a severe von Willebrand phenotype, whereas compound heterozygous patients only show the phenotype of the expressed allele. Five members of the same family were studied. The two patients showed borderline VWF levels, a mild factor VIII (FVIII) deficiency and a decrease of the binding of VWF to exogenous FVIII. The genetic analyses of the VWF gene confirmed that the patients were compound heterozygous for c.2561G>A (R854Q) and c.2685G>C (p.Q895H) mutations. The latter, is located in the 3' extreme of exon 20, and it has not been previously described. Studies of the cDNA from platelet mRNA were performed to investigate the expression of p.H895 allele. The loss of heterozygosity at the cDNA level suggests a lack of expression of the p.H895 allele. The overall studies can explain the type 2N phenotype of the two patients, since the allele carrying the new missense mutation p.Q895H has shown a low expression of VWF gene.

Severe and moderate hemophilia A: identification of 38 new genetic alterations.

Hemophilia A is an X-linked recessive disorder caused by a lack or decrease of factor VIII activity. Its socio-economic impact is high given its high bleeding expression and treatment cost. Our aim was to establish the mutation of each patient to improve family management. A total of 116 unrelated families with severe and moderate hemophilia A were involved. Non-carriers of intron 22 and intron 1 rearrangements were included in F8 gene screening. Intron 1 and 22 inversion frequencies were 3% and 52.5% respectively. Putative mutations were identified in all the families; 38 were new. The cumulative inhibitor incidence was 22%. Approximately half the families carry non-recurrent mutations, which were unique in around one third. Harmful effects for mutations predicting null alleles are expected. Missense mutation consequences are not easily predictable, despite the help of some bio-informatics tools.

Von Willebrand's disease: a novel mutation, P1824H and the incidence of R1205H defect among families with dominant quantitative von Willebrand factor deficiency.

To date, few mutations associated with a dominant quantitative deficiency of von Willebrand factor (VWF) and a high penetrance have been reported. This phenotype was confirmed in seven unrelated families of several patients diagnosed with von Willebrand's disease out of 70 who requested genetic studies of the VWF gene. The mutations linked to this type were identified: R1205H in five families; T1156M in one family; and the new P1824H alteration in one other family. The R1205H mutation linked to the different haplotypes might well be frequent among this variant. The P1824H in the A3 domain is associated with very low VWF levels and with a moderate-to-severe bleeding tendency, unlike the other mutations reported in this domain.