The molecular aetiology of haemophilia A in a New Zealand patient group

Specific and global coagulation tests in patients with mild haemophilia A with a double mutation (Glu113Asp, Arg593Cys)

BACKGROUND

Heterogeneous bleeding phenotypes are observed in haemophilia A patients with the same mutation in the F8 gene. Specific mutations in the A2 domain of factor VIII are associated with mild haemophilia and a higher risk of inhibitor development. Double mutations in mild haemophilia A are rarely reported. In this study, we investigated the in vitro function of factor VIII, performing different specific and global coagulation assays, observed clinical characteristics and assessed the possible predictive diagnostic value of the differences.

MATERIALS AND METHODS

The clinical features of haemophiliacs with a mild phenotype were reviewed. Blood samples were obtained and analysed for mutations and coagulation assays: activated partial thromboplastin time, one-stage and chromogenic factor VIII activity, factor VIII antigen and rotational thromboelastometry.

RESULTS

We report on a cohort of 22 patients with double Glu113Asp, Arg593Cys mutations. All our patients have a quantitative defect of factor VIII and preserved similar functional activity. Factor VIII activities measured by the one-stage or chromogenic method were not discrepant, although the chromogenic assay resulted in 20% lower factor VIII activities. Waveform analysis showed a lower maximum value of the second derivative curve (Max2) of APTT with curve shape alternation, while thromboelastometry (INTEM) showed low sensitivity in comparison to results in a normal population.

DISCUSSION

In genotyping, the coexistence of a second mutation should never be excluded, especially in cases of discordant clinical presentation. Waveform analysis correlates better with factor VIII activity than thromboelastometry and the Max2 parameter could provide additional information in managing haemophilia patients. The utility of specific factor activity and global haemostatic assays in general practice still needs to be investigated.

Unusual presentation of haemophilia in two paediatric patients

Haemophilia A is a rare X-linked recessive bleeding disorder caused by deficiency or functional defects in coagulation factor VIII (FVIII). Here, we report two cases of challenging diagnosis of haemophilia A because of unusual presentation. The first case is a 10-month-old female, admitted to our hospital because a neck mass appeared within the previous 24 h, who had a past medical history consistent with recurrent spontaneous haematomas but no family history of bleeding disorders. Despite several radiological evaluations, only the histology of the mass defined the presence of a haematoma. Chromosomal analysis revealed a normal female karyotype and a de-novo mutation into the FVIII intron 22 associated with a skewed X chromosome inactivation. The second case is a male neonate with a history of seizures who underwent brain MRI that showed a suspicious vascular malformation on the quadrigeminal cistern, causing cerebellum compression and hydrocephalus. The clinical conditions of the child progressively worsened and blood tests revealed a severe deficit of FVIII levels. The radiological images were re-evaluated; vascular anomalies were excluded and the diagnosis of haematoma was made. Family history was negative for coagulation disorders. Molecular studies revealed a rearrangement of the FVIII gene involving intron 22. The haemophilia A diagnosis can be challenging. Lack of family history, difficulties in detecting haematomas by imaging techniques, female sex and neonatal age represent misleading factors that can delay the diagnosis.

Genotyping of intron 22-related rearrangements of F8 by inverse-shifting PCR in Egyptian hemophilia A patients

Hemophilia A (HA) is the most common severe bleeding disorder in humans, affecting one in 5,000 male births. In severe HA, intron 22 inversion of F8 is the most prevalent mutation, accounting for 40-50% of all mutations; however, little is known about the disease-causing mutations among Egyptian hemophiliacs. We aimed at genotyping all possible known DNA rearrangements of intron 22 of F8 in Egyptian HA patients. Peripheral blood samples were collected from 30 Egyptian HA patients (13 severe, ten moderate, and seven mild cases). Genotyping of F8 intron 22 rearrangements was performed by inverse-shifting PCR (IS-PCR). Our study revealed that seven patients (23.3%) had inversion 22, three patients (10%) had deletion 22, and 20 patients (66.7%) carried the wild-type allele. No intron 22 duplication was detected. The relative proportion of inversion 22-type 1 to inversion 22-type 2 was 85.7% and 14.3%, respectively, whereas the relative proportion of deletion 22-type 1 to deletion 22-type 2 was 33.3% and 66.7%, respectively. A statistically highly significant relation was found between disease severity and F8 intron 22 rearrangements (p = 0.008). Among severe cases, 46.1% had inversion 22, 23.1% had deletion 22, and 30.8% carried the wild-type allele. We conclude that F8 intron 22 inversion/deletion is responsible for about one third of disease-causing mutations among Egyptian hemophiliacs and for nearly 70% in severe cases. In addition, F8 intron 22 inversion/deletion by IS-PCR has proven to be a rapid and robust technique and might be the recommended tool for genetic analysis of HA patients specially with severe cases in developing countries.

Preimplantation genetic diagnosis for hemophilia A using indirect linkage analysis and direct genotyping approaches

BACKGROUND

Preimplantation genetic diagnosis (PGD) is an appealing option for couples at risk of having a child with hemophilia A (HA). Although many clinics offer PGD for HA by gender selection, an approach that detects the presence of the underlying F8 mutation has several advantages.

OBJECTIVES

To develop and validate analysis protocols combining indirect and direct methods for identifying F8 mutations in single cells, and to apply these protocols clinically for PGD.

METHODS

A panel of microsatellite markers in linkage disequilibrium with F8 were validated for single-cell multiplex polymerase chain reaction. For point mutations, a primer extension genotyping assay was included in the multiplex. Amplification efficiency was evaluated using buccal cells and blastomeres. Four clinical PGD analyses were performed, for two families.

RESULTS

Across all validation experiments and the clinical PGD cases, approximately 80% of cells were successfully genotyped. Following one of the PGD cycles, healthy twins were born to a woman who carries the F8 intron 22 inversion. The PGD analysis for the other family was complicated by possible germline mosaicism associated with a de novo F8 mutation, and no pregnancy was achieved.

CONCLUSIONS

PGD for the F8 intron 22 inversion using microsatellite linkage analysis was validated by the birth of healthy twins to one of the couples. The other family's situation highlighted the complexities associated with de novo mutations, and possible germline mosaicism. As many cases of HA result from de novo mutations, these factors must be considered when assessing the reproductive options for such families.

Improved criterion-referenced assessment in indirect tracking of haemophilia A using a 0.23 cM-resolution dense polymorphic marker set

In haemophilia A, linkage analysis with coagulation factor VIII (F8) intragenic and/or neighbouring extragenic short tandem repeats (STRs) enables indirect tracking F8 pathogenic allelic variant-carriers. Even where DNA sequencing is available, linkage analysis still has a role if no causative or candidate mutation is unveiled. The cumulative heterozygosity rate of the available multiplexed STRs haplotyping assays rarely reaches 100%. This means that in a proportion of women these loci are uninformative. The norm-referenced assessment is based on at least one informative marker criterion. We reasoned that by typing a dense market set, spanning a small fraction of recombination, we should be able to improve assessment. The aim of this study was to improve criterion-referenced assessment in polymorphism segregation analyses using a low-recombination fraction and dense informative STRs set. The multiplex quantitative fluorescence PCR assay comprises four novel tetranucleotide and pentanucleotide STRs distant < or = 0.15 cM from the F8 gene, and three F8 intragenic dinucleotide STRs, mapped to a 0.23 cM interval spanning the F8 on human chromosome band Xq28. We determined heterozygosity rates and allele frequencies from 100 unrelated healthy females. To investigate about segregation stability, we typed 50 true trios (mother, daughter and father) and 50 true mother-and-son duos from the general population. The heterozygosity rates for the extragenic markers ranged 0.49-0.76. The 0.23 cM-resolution heptaplex rendered a cumulative heterozygosity of 0.89 for a minimum of two informative markers, with at least one F8 intragenic. The heptaplex assay enabled improving the criterion-referenced assessment in indirect carrier-detection.

Introns 1 and 22 inversions and factor VIII inhibitors in patients with severe haemophilia A in southern Brazil

A total of 107 unrelated severe haemophilia A patients living in the southern Brazilian state of Rio Grande do Sul were studied in relation to the prevalence of inversions present in introns 22 and 1 and a subsample of them (95) tested for the presence of Factor VIII inhibitors. These data were then incorporated with those from 15 other countries and 3871 patients. The frequencies of these two inversions show a remarkable homogeneity in series collected in different continents, from people with diverse ethnic extraction. The prevalence of inhibitors among patients with inversion 22, on the other hand, varies widely (5-51%; seven countries, 1482 patients), the value observed by us being the highest. The importance of obtaining data from patients throughout the world to clarify the aetiology of this important complicating factor in the therapeutics of the disease is emphasized.

Detection of Factor VIII Gene Mutations by High-Resolution Melting Analysis

Background: Single base-pair substitution mutations in the gene for coagulation factor VIII, procoagulant component (hemophilia A) (F8) account for approximately 50% of severe cases of hemophilia A (HA), and almost all moderate or mild cases. Because F8 is a large gene, mutation screening using denaturing HPLC or DNA sequencing is time-consuming and expensive.

Methods: We evaluated high-resolution melting analysis as an option for screening for F8 gene mutations. The melting curves of amplicons heterozygous for known F8 gene mutations were compared with melting curves of the corresponding normal amplicons to assess whether melting analysis could detect these variants. We examined 2 platforms, the Roche LightCycler 480 (LC480) and the Idaho Technology LightScanner.

Results: On both instruments, 18 (90%) of the 20 F8 gene variants we examined were resolved by melting analysis. For the other 2 mutations, the melting curves of the heterozygous amplicons were similar to the corresponding normal amplicons, suggesting these variants may not be detected by this approach in a mutation-scanning screen.

Conclusion: High-resolution melting analysis is an appealing technology for F8 gene screening. It is rapid and quickly identifies mutations in the majority of HA patients; samples in which no mutation is detected require further testing by DNA sequencing. The LC480 and LightScanner platforms performed similarly.