High Mutational Heterogeneity, and New Mutations in the Human Coagulation Factor V Gene. Future Perspectives for Factor V Deficiency Using Recombinant and Advanced Therapies.

Factor V is an essential clotting factor that plays a key role in the blood coagulation cascade on account of its procoagulant and anticoagulant activity. Eighty percent of circulating factor V is produced in the liver and the remaining 20% originates in the α-granules of platelets. In humans, the factor V gene is about 80 kb in size; it is located on chromosome 1q24.2, and its cDNA is 6914 bp in length. Furthermore, nearly 190 mutations have been reported in the gene. Factor V deficiency is an autosomal recessive coagulation disorder associated with mutations in the factor V gene. This hereditary coagulation disorder is clinically characterized by a heterogeneous spectrum of hemorrhagic manifestations ranging from mucosal or soft-tissue bleeds to potentially fatal hemorrhages. Current treatment of this condition consists in the administration of fresh frozen plasma and platelet concentrates. This article describes the cases of two patients with severe factor V deficiency, and of their parents. A high level of mutational heterogeneity of factor V gene was identified, nonsense mutations, frameshift mutations, missense changes, synonymous sequence variants and intronic changes. These findings prompted the identification of a new mutation in the human factor V gene, designated as Jaén-1, which is capable of altering the procoagulant function of factor V. In addition, an update is provided on the prospects for the treatment of factor V deficiency on the basis of yet-to-be-developed recombinant products or advanced gene and cell therapies that could potentially correct this hereditary disorder.

DMD Mutations in 576 Dystrophinopathy Families: A Step Forward in Genotype-Phenotype Correlations.

Recent advances in molecular therapies for Duchenne muscular dystrophy (DMD) require precise genetic diagnosis because most therapeutic strategies are mutation-specific. To understand more about the genotype-phenotype correlations of the DMD gene we performed a comprehensive analysis of the DMD mutational spectrum in a large series of families. Here we provide the clinical, pathological and genetic features of 576 dystrophinopathy patients. DMD gene analysis was performed using the MLPA technique and whole gene sequencing in blood DNA and muscle cDNA. The impact of the DNA variants on mRNA splicing and protein functionality was evaluated by in silico analysis using computational algorithms. DMD mutations were detected in 576 unrelated dystrophinopathy families by combining the analysis of exonic copies and the analysis of small mutations. We found that 471 of these mutations were large intragenic rearrangements. Of these, 406 (70.5%) were exonic deletions, 64 (11.1%) were exonic duplications, and one was a deletion/duplication complex rearrangement (0.2%). Small mutations were identified in 105 cases (18.2%), most being nonsense/frameshift types (75.2%). Mutations in splice sites, however, were relatively frequent (20%). In total, 276 mutations were identified, 85 of which have not been previously described. The diagnostic algorithm used proved to be accurate for the molecular diagnosis of dystrophinopathies. The reading frame rule was fulfilled in 90.4% of DMD patients and in 82.4% of Becker muscular dystrophy patients (BMD), with significant differences between the mutation types. We found that 58% of DMD patients would be included in single exon-exon skipping trials, 63% from strategies directed against multiexon-skipping exons 45 to 55, and 14% from PTC therapy. A detailed analysis of missense mutations provided valuable information about their impact on the protein structure.

Clinical and genetic findings in five female patients with haemophilia A: Identification of a novel missense mutation, p.Phe2127Ser.

Severe manifestations of X-linked recessive disorders such as haemophilia A (HA) are rare in females. Here we describe the clinical and genetic findings in five female HA patients from two different Spanish families. Three sisters born to consanguineous parents presented moderate bleeding due to a known mutation (p.Ser1791Pro) detected in a homozygous state. In the second family, two sisters with Morris syndrome (46,XY) and mild/moderate illness were hemizygous for a novel missense mutation, p.Phe2127Ser. The mutation is predicted to impair binding to the factor VIII (FVIII) carrier protein, von Willebrand factor, and thus increased clearance of FVIII from plasma. Clinical and molecular characterisation of these patients is essential to optimise follow-up, genetic counselling and treatment of the disease.

Mutations in the NKX2-5 gene in patients with stroke and patent foramen ovale.

OBJECTIVE: Patent foramen ovale (PFO) has been related to stroke but its existence has not been explained to date. NKX2-5 is the most implicated gene in fetal atrial septation. We studied NKX2-5 with respect to the presence or absence of PFO in stroke patients. METHODS: A prospective analysis of NKX2-5 regarding age, gender, PFO, right-to-left shunt (RLS) size and atrial septal aneurysm (ASA) was performed in consecutive stroke patients and in 50 controls. The entire coding region and intron-exon boundaries of NKX2-5 gene were analyzed by PCR and sequencing of DNA from peripheral lymphocytes. RESULTS: One hundred patients participated in the study (mean age 56.5+/-12.4 years, 58% males) and PFO was diagnosed in 34% of them by transesophageal echocardiography. RLS was small (12%), moderate (2%) and large (20%). ASA was present in four patients. DNA revealed a novel c.2357G>A change in one PFO patient with cryptogenic stroke. Furthermore, c.182C>T, a mutation previously described in patients with cardiac defects, was detected in two non-PFO women with cryptogenic stroke. None of these changes were detected in our controls. The c.172A>G polymorphism was found in 21% of controls. It appeared more frequently in ASA patients (p=0.084), in cryptogenic PFO stroke patients (p=0.097) and in patients with known causes of stroke (p=0.037). The c.2850C>A polymorphism was also detected in our series with no differences in PFO, RLS size or ASA. CONCLUSION: Despite the fact that the NKX2-5 could account for the persistence of PFO, mutations of this gene in peripheral blood DNA were barely detected in our study.

Identification of 31 novel mutations in the F8 gene in Spanish hemophilia A patients: structural analysis of 20 missense mutations suggests new intermolecular binding sites.

Hemophilia A (HA) is an X-linked bleeding disorder caused by a wide variety of mutations in the factor 8 (F8) gene, leading to absent or deficient factor VIII (FVIII). We analyzed the F8 gene of 267 unrelated Spanish patients with HA. After excluding patients with the common intron-1 and intron-22 inversions and large deletions, we detected 137 individuals with small mutations, 31 of which had not been reported previously. Eleven of these were nonsense, frameshift, and splicing mutations, whereas 20 were missense changes. We assessed the impact of the 20 substitutions based on currently available information about FV and FVIII structure and function relationship, including previously reported results of replacements at these and topologically equivalent positions. Although most changes are likely to cause gross structural perturbations and concomitant cofactor instability, p.Ala375Ser is predicted to affect cofactor activation. Finally, 3 further mutations (p.Pro64Arg, p.Gly494Val, and p.Asp2267Gly) appear to affect cofactor interactions with its carrier protein, von Willebrand factor, with the scavenger receptor low-density lipoprotein receptor-related protein (LRP), and/or with the substrate of the FVIIIapi*FIXa (Xase) complex, factor X. Characterization of these novel mutations is important for adequate genetic counseling in HA families, but also contributes to a better understanding of FVIII structure-function relationship.

Marker and real-time quantitative analyses to confirm hemophilia B carrier diagnosis of a complete deletion of the F9 gene.

Approximately 3% of hemophilia B patients have major deletions in the F9 gene, half of which are complete. Marker and quantitative PCR analyses were employed for carrier diagnosis in a family of a mentally retarded hemophilia B patient with a total deletion of the F9 gene and neighbor genes. Both methodologies allowed the confirmation of carrier or non-carrier status.

Rapid identification of female haemophilia A carriers with deletions in the factor VIII gene by quantitative real-time PCR analysis.

Large deletions of the factorVIII gene account for approximately 5% of severe haemophilia A patients. Although deletions are readily detectable in males, the identification of heterozygosity in possible carriers of these families still constitutes a challenge. In order to identify a deleted allele over the background of the normal allele in these carriers, we developed a rapid real-time quantitative PCR approach by means of LightCycler technology and SYBR green I for monitoring product formation. The method was applied to families with independent deletions (one in exon 14 and the other in exons 23-24) of the Factor VIII gene, thereby allowing a reliable determination of carrier or non-carrier status. The method is extremely versatile and can be adapted to other deletions within the factorVIII gene as well as to other diseases whose molecular pathology consists of deletions or duplications.

RNA analysis of eight BRCA1 and BRCA2 unclassified variants identified in breast/ovarian cancer families from Spain.

Germ-line mutations in the breast cancer susceptibility genes BRCA1 and BRCA2 account for a large proportion of hereditary breast/ovarian cancer families. A large number of disease-causing germ-line mutations and variants of unknown pathological significance have been identified in both genes. The majority of these variants have been studied only in genomic DNA and their effects at the mRNA level have not been reported. Our aim was to ascertain the pathological effect of six BRCA1 and two BRCA2 sequence unclassified variants by RNA analysis. Three of the BRCA1 variants are novel: IVS18+5G>A, IVS20-6_IVS20-4del and IVS22-2A>G. Three BRCA1 mutations showed aberrant splicing: Ala1693del, IVS18+5G>A and IVS22-2A>G. The variants G1706A, S1715N and IVS20-6_IVS20-4del in BRCA1, and T2515I and IVS25+9A>C in BRCA2 led to normal transcripts. We compared these RNA results with those obtained from two theoretical splicing prediction methods. The consensus values for the splice sequences (Shapiro and Senapathy 1987) involved in three of the BRCA1 splicing site variants agreed with the RNA results, lending support to the validity of this model. Moreover, we used previously established exonic splicing enhancer (ESE) sequences to ascertain whether the four exonic variants studied fell within predicted ESE motifs and whether they would disrupt ESE functions. Our results suggest that the splicing predictions based on this method are not definitive and should be considered with caution. This work highlights the importance of studying mutations at DNA and RNA levels in order to clarify their pathological effect. This information is essential for providing efficient counseling for breast/ovarian cancer families.

Características clinicopatológicas y evolución clínica de pacientes con cáncer de mama y mutaciones en los genes BRCA1 o BRCA2 / Clinical and pathological characteristics and follow-up of patients with breast cancer and BRCA1/BRCA2 mutations

INTRODUCCIÓN: Las diferencias en el comportamiento clínico del cáncer de mama esporádico y el hereditario son poco conocidas. PACIENTES Y MÉTODO: Se analizaron las características clinicopatológicas y la evolución clínica de 30 pacientes con cáncer de mama (la mediana de seguimiento fue de 131 y 54 meses, respectivamente), mutación en los genes BRCA1 o BRCA2 (detectadas mediante SSCP y PTT) y antecedentes familiares de cáncer de mama o cáncer de ovario. RESULTADOS: No se observaron diferencias en la edad de aparición, tamaño o diseminación ganglionar del tumor. La presentación mamográfica en BRCA2 fue más heterogénea que en BRCA1. Los tumores con BRCA1 mutado fueron carcinomas ductales infiltrantes (el 20 por ciento medulares), y evidenciaban características histológicas de mayor agresividad. El 14 por ciento presentó recidiva local en BRCA1 y el 20 por ciento en BRCA2. Los cánceres de mama contralaterales y los cánceres de ovario fueron del 27 y el 20 por ciento para BRCA1 y del 6 por ciento en ambos para BRCA2. CONCLUSIONES: No se apreciaron diferencias entre BRCA1 y BRCA2 en la edad de aparición y el estadio del cáncer de mama. El patrón mamográfico del cáncer de mama asociado a BRCA2 fue más heterogéneo. Las mutaciones en BRCA1 se asociaron a cáncer de mama con características patológicas de agresividad y mayor frecuencia de segundas neoplasias de mama y de ovario (AU)