Factor 5 mutation profile in German patients with homozygous and heterozygous factor V deficiency

Summary.  Coagulation factor V (FV) plays an important role in the blood coagulation cascade as part of the prothrombinase complex. FV deficiency is a rare autosomal recessive bleeding disorder with variable phenotypic expression. Thus, our study reports 39 patients with FV deficiency. In 36 cases, we were able to identify a causative mutation. Of these, 20 patients were heterozygous for the identified mutation, nine were homozygous, six were compound heterozygous and one proband was pseudohomozygous. In the remaining patients, no mutation was found. A total of 42 genetic alterations (of which 33 were uniquely different mutations), comprising 19 missense mutations, eight nonsense mutations, four small deletions and two splice site mutations, were identified by this study. Twenty-three of these were novel sequence variations not previously described in the literature. Interestingly, all changes found in exon 13 resulted in null alleles as either nonsense mutations or small deletions. The overall profile of these new mutations corresponds well with the data published in the F5 database. In those cases, where data were available, information on FV activity levels and/or bleeding history is given. Interestingly, some patients with mild FV deficiency (FV:C about 50% of normal) also exhibited bleeding episodes. Our data substantially contribute to the broadening and better understanding of the FV deficiency mutational spectrum. Identifying the molecular basis of mutations underlying this rare coagulation disorder will allow more insight into the mechanisms involved in the variable clinical phenotypes of patients with FV deficiency.     

Severe coagulation factor V deficiency caused by a 4 bp deletion in the factor V gene

Factor V (FV) deficiency (parahaemophilia) is an autosomal recessive bleeding disorder with an incidence of 1:10⁶. We have studied a young girl with very mild bleeding symptoms and undetectable levels of plasma factor V antigen and activity (<0.3% and <1.6% of normal, respectively). Both parents showed plasma levels of factor V activity of about 50% of normal. Sequence analysis of the 5'- and 3'-untranslated, coding and adjacent regions of the factor V gene revealed the presence of a 4 bp deletion in exon 13. Subsequent screening of members of the family for the mutation showed that both parents were heterozygous for the mutation, that one healthy sister carried only normal alleles, and that the patient was homozygous for the mutated allele. The mutation introduced a frameshift and a novel premature stop codon in codon 1303, and would predict the synthesis of a truncated factor V molecule that lacks part of the B domain and the complete light chain. However, no factor V heavy chain could be detected in the plasma of the patient. Furthermore, factor V activity could not be detected in the patients' platelets. This is the first reported mutation in the factor V gene that predicts a type I quantitative factor V deficiency. Surprisingly, the patient, who is homozygous for the mutation, so far has only a very mild bleeding tendency.     

Gene analysis and prenatal diagnosis for two families of congenital factor V deficiency

Summary. We studied two families in which the probands had severe bleeding tendency and showed low plasma levels of coagulation factor V (FV) antigen and activity. Sequence analysis of the FV gene on proband 1 demonstrated a novel G16088C homozygous missense mutation in exon 3 resulting in an Asp 68 to His substitution and on proband 2, a C69969T homozygous missense mutation in exon 23 leading to Gly2079Val. The parents of both families were each heterozygous for the corresponding FV gene defect. During their second pregnancy, the two families requested prenatal diagnosis. Chorionic villi were analysed at 12 weeks of gestation and cord blood samples were tested at 22 weeks. Microsatellite analysis performed in family 1 showed that the foetus sample was not contaminated by maternal tissue. The foetus 1 was found to be heterozygous for the familiar G16088C mutation with lower FV activity in the cord blood; the foetus 2 was a normal one. The diagnosis was confirmed after the birth. This is the first report of prenatal diagnosis for FV deficiency.     

Identification of three F5 gene mutations associated with inherited coagulation factor V deficiency in two Chinese pedigrees

To investigate the molecular defects in two Chinese pedigrees with inherited factor V (FV) deficiency. A 37-year-old male (proband 1) and an 18-month-old boy (proband 2) were diagnosed as inherited coagulation FV deficiency by severely reduced plasma levels of FV activity and antigen. All 25 exons and their flanking sequence of F5 gene were amplified by polymerase chain reaction (PCR) for both probands and the PCR products were directly sequenced. Total RNA was extracted from the peripheral lymphocytes of proband 1 for detecting the changes at mRNA level. The homozygous deletion IVS8 -2A>G was identified in the F5 gene of proband 1 and complementary DNA (cDNA) analysis revealed the abolishment of the canonical splicing site by the mutation and the activation of the cryptic acceptor site 24 bp upstream instead. The insertion introduced eight additional amino acids (AA) into the FV protein. Two heterozygous mutations of F5 gene were discovered in proband 2. The 2238-9del AG in exon 13 introduced a premature termination code at 689 AA and the substitution of G6410 by T in exon 23 lead to the missense mutation Gly2079Val. Three F5 gene mutations, IVS8 -2A>G, 2238-9del AG and G6410T, have been identified in two Chinese pedigree with congenital FV deficiency, respectively.     

Molecular characterization of 3 factor V mutations, R2174L, V1813M, and a 5-bp deletion, that cause factor V deficiency

We identified 3 mutations in the factor V (FV) gene (F5) associated with FV deficiency in 3 unrelated Japanese patients. Patient 1 had severe bleeding symptoms (plasma FV activity, <1%; FV antigen, 9%) and was a compound heterozygote for a novel 5-bp deletion in exon 22 and the V1813M mutation. Patient 2 had moderate bleeding symptoms (plasma FV activity, <1%; FV antigen, 4%) and was homozygous for the V1813M mutation. Patient 3 had very mild symptoms (plasma FV activity, 1%; FV antigen, 5%) and was homozygous for the novel R2174L mutation. A study of recombinant protein expression revealed that the FV coagulant-specific activities in conditioned media for the FV-R2174L and FV-V1813M mutants were reduced to approximately 40% and 28% of wild-type FV, respectively. The amounts of FV-R2174L protein and messenger RNA in the platelets of patient 3 were similar to those of healthy subjects; however, the amount of FV-V1813M protein in patient 2 was decreased. Our data suggest that the severity of the bleeding tendency in patients with FV deficiency is correlated not only with plasma FV activity but also with the amount of FV protein in the platelets.     

Evaluation of factor V mRNA to define the residual factor V expression levels in severe factor V deficiency

We evaluated FV mRNA in severe factor V deficiency caused by the -12T/A IVS18 mutation, activating a cryptic splice site and leading to premature translation termination. Quantitative evaluation of factor V cDNA from homozygous and heterozygous subjects, and correction for nonsense mediated decay, suggested the presence of 0.1% of normal factor V mRNA.     

Phenotypic homozygous activated protein C resistance associated with compound heterozygosity for Arg506Gln (factor V Leiden) and His1299Arg substitutions in factor V

Two patients from two unrelated families with a history of thrombosis showed severe plasma activated protein C (APC) resistance. However, genotypic analysis demonstrated that the patients were heterozygous for factor V (FV) Leiden mutation. Coagulation studies revealed that FV clotting activity and antigen were similarly reduced at about 50% of normal in the patients. One brother of propositus A also showed the same abnormalities. Genetic analysis showed that, in addition to FV Leiden mutation in exon 10 of the FV gene (G1691A), these patients had a transition in exon 13 of the FV gene (A4070G; R2 allele) predicting His1299Arg substitution in the mature FV. Study by RT-PCR of platelet FV mRNA indicated that the mRNA produced by the FV gene, marked by the R2 allele, was reduced in amount in both pseudohomozygous patients of family A. The R2 allele has previously been demonstrated to be significantly associated with plasma FV deficiency in the Italian population. The presence of FV deficiency did not protect the propositi from thrombosis. These data confirm that genotypic analysis is mandatory in patients with phenotypic severe APC resistance before these patients are definitely classified as homozygotes for FV Leiden and that further genotypic analysis is advisable.     

Advances in understanding the bleeding diathesis in factor V deficiency

Coagulation factor V (FV), present in plasma and platelets, is an indispensable clotting factor, as demonstrated by the uniform lethality of FV knock-out mice. Surprisingly, however, severe FV deficiency is rarely fatal in humans. In fact, although several cases of life-threatening intracranial haemorrhage have been reported in FV-deficient newborns, many patients with undetectable FV levels experience only mild to moderate bleeding and do not require routine prophylaxis. While the reasons for this variable phenotypic expression are largely unknown, several observations from different laboratories indicate platelets as crucial players in FV deficiency. Moreover, we have recently shown that plasma levels of tissue factor pathway inhibitor are considerably reduced in FV-deficient plasma, which results in enhanced thrombin generation especially at very low FV levels (<2%). The present review discusses and integrates these findings in the context of the biology of FV and the clinical features of FV deficiency.     

Influence of three potential genetic risk factors for thrombosis in 43 families carrying the factor V Arg 506 to Gln mutation

The factor V (FV) Arg 506 to Gln mutation is the most common abnormality observed in familial thrombophilia. Many studies have shown that its clinical expression differs among families and among carriers. Some thrombotic patients carry an additional genetic risk factor such as protein C, protein S or antithrombin deficiency. We sought to identify other genetic risk factors potentially favouring expression of the thrombotic phenotype in 370 members of 43 families with the FV Arg 506 to Gln mutation. We analysed three candidate polymorphisms in genes involved in the PC anticoagulant pathway, consisting of two polymorphic sites in the 5' non-transcribed region of the PC gene, -1654 C/T and -1641 A/G, with three known combinations (TA, CA and CG) that influence the protein C plasma level; one polymorphic site (4070 A/G) in exon 13 of the FV gene, which influences the plasma factor V concentration, and one polymorphic site (677 C/T) in the methylenetetrahydrofolate reductase gene, which is often associated with moderate hyperhomocysteinaemia. The distribution of these different polymorphisms was similar in patients with a history of thrombosis and those who remained asymptomatic, ruling out the possibility that each of these polymorphisms alone can play a role in the onset of thrombosis in carriers of the FV Arg 506 to Gln mutation.     

Clinical and laboratory expression of associated thrombophilic conditions (homozygous/heterozygous factor V Leiden mutation and heterozygous prothrombin variant 20210A) in an Italian family.

Prothrombin variant 20210A is maintained to be a mild risk factor for venous thromboembolism (VTE). The association of this defect with other inherited thrombophilic conditions may result in an increased risk of developing VTE. In this article, a family is described in which prothrombin variant was associated with either homozygous or heterozygous factor V Leiden (FV Leiden) mutation. All family members except the proband were asymptomatic despite the presence and the severity of the underlying genetic defect(s). The proband, who carried homozygous FV Leiden mutation and heterozygous prothrombin variant, experienced recurrent VTE during pregnancies, whereas one brother, with the same defect, was asymptomatic. Mean prothrombin antigen and activity levels were higher in carriers of the prothrombin variant as compared with noncarriers. Thrombin generation was assessed in family members, in carriers of prothrombin variant or homozygous FV Leiden mutation and in a control group. Most of the family members presented with increased prothrombin fragment 1+2 levels possibly because of the presence of the FV Leiden mutation. Although it is conceivable that the co-inheritance of prothrombin variant and FV Leiden mutation may increase the risk of VTE, patients with these combined defects may remain asymptomatic. It is likely that acquired triggering conditions play a major role in determining VTE in carriers of a mild genetic predisposition. This has to be taken into account when recommendation for thromboprophylaxis is given.     

Clinical and laboratory evaluation of Turkish children with thrombosis for homozygous factor V G1691A mutation.

Factor V (FV) G1691A mutation, in a heterozygous state, is one of the most common inherited risk factors for development of thrombosis. However, the clinical manifestations of homozygosity for the FV G1691A mutation in children is largely unknown because of the limited number of studies reported. The purpose of this study was to evaluate the clinical manifestations and laboratory findings of children with thrombosis who were homozygous for this mutation. Ten patients (four male/six female; mean age, 4.5 years; age range, 1-13 years) who were found to be homozygous for the FV G1691A mutation among 360 consecutive children with thrombosis (2.8%) were the subjects of this study. Six of the 10 patients had venous thrombosis, two had purpura fulminans, one had diffuse skin ecchymosis and one had arterial thrombosis. No history of thrombosis was present in their family members. Seven of the 10 children were under the age of 5 years. One or more additional risk factors (infection, protein S and protein C deficiencies, elevated factor VIII, etc.) were also present in nine of these patients. None of these patients had prothrombin G20210A mutation but one patient had risk-associated plasminogen activator inhibitor-1 gene 4G/4G genotype. These findings suggest that, in the presence of other underlying risk factors, homozygosity for FV G1691A mutation may lead to development of thrombosis at a very young age.     

Functional characterization of a novel missense mutation identified in a Turkish patient affected by severe coagulation factor V deficiency

Summary. Factor V (FV) deficiency is a rare coagulation disorder, characterized by a bleeding phenotype varying from mild to severe. To date, 115 mutations have been described along the gene encoding for FV (F5) but only few of them have been functionally characterized. Aim of this study was the identification and the molecular characterization of genetic defects underlying severe FV deficiency in a 7‐month‐old Turkish patient. Mutation detection was performed by sequencing the whole F5 coding region, exon–intron boundaries and about 300 bp of the promoter region. Functional analysis of the identified missense mutation was conducted by transient expression of wild‐type and mutant FV recombinant molecules in COS‐1 cells. Two novel mutations: a missense (Pro132Arg) and a 1‐bp deletion (Ile1890TyrfsX19) were identified in the F5 gene. While the frameshift mutation is responsible for the introduction of a premature stop codon, likely triggering F5 mRNA to nonsense‐mediated mRNA degradation, the demonstration of the pathogenic role of the Pro132Arg mutation required an experimental validation. Expression experiments showed that the missense mutation causes a significant reduction in FV secretion and in the specific activity of the residual secreted molecule (77% and 78% decrease, respectively). This paper reports the identification of two novel mutations responsible for FV deficiency, thus widening the mutational spectrum of the F5 gene. The Pro132Arg mutation adds to the only other two functionally characterized missense defects in the FV A1 domain.     

Arterial and venous thrombosis in two Italian families with the factor V Arg506→ Gln mutation

Abstract: APC resistance, due to a point mutation in factor V at amino acid position Arg⁵⁰⁶, has been identified as a major cause of inherited thrombophilia. Here we report the presence of the factor V Arg⁵⁰⁶→Gln mutation in 2 Italian families. In 1 family 3 subjects heterozygous and 2 subjects homozygous for the factor V Arg⁵⁰⁶→ Gln mutation were identified. The only subject who developed a thrombotic event was a 20-yr-old girl who was found to be homozygous for the factor V Arg⁵⁰⁶→Gln mutation. In the second family 10 subjects were identified to be heterozygous for the factor V Arg⁵⁰⁶ →Gln mutation; among them 2 developed a thrombotic event. In the same family 2 individuals were found to be homozygous for the mutation: the first had a myocardial infarction at age 25 yr and the second suffered from multiple episodes of deep venous thrombosis and had a stroke at age 24 yr. These data show that the risk of developing deep venous thrombosis for the carriers of the factor V Arg⁵⁰⁶→Gln mutation is high in the families investigated. Furthermore our data imply that the factor V Arg⁵⁰⁶ →Gln mutation in its homozygous form may relate to myocardial infarction and stroke.     

Factor V Q 506 mutation in children with thrombosis

The factor V Leiden mutation in 12 children with thrombosis and in 20 controls was investigated. Five heterozygous individuals and 1 homozygous individual among the cases with thrombosis and 1 heterozygous individual among controls were found. Central nervous system thromboses were increased in children with the factor V mutation, associated with protein S deficiency. © 1996 Wiley-Liss, Inc.     

The factor V Leiden mutation in children with cancer and thrombosis

Thromboembolic phenomena, frequently observed in children with cancer who are undergoing chemotherapy, can cause significant morbidity and, less frequently, mortality. Many contributory factors have been identified. Whether the recently identified and most common coagulation defect predisposing to thrombosis, factor V Leiden, is associated with thrombosis in this setting, has not been explored. The current study was undertaken to determine the prevalence of the factor V Leiden mutation in children with cancer who developed thromboembolic phenomena as compared to those with cancer who did not. Genomic DNA was amplified using the polymerase chain reaction (PCR), followed by digestion of the amplification product with the restriction enzyme Mnl I. The digested PCR products were then size-fractionated to classify samples as heterozygous, homozygous or normal for the factor V Leiden mutation. 67 children with cancer were evaluated for the factor V Leiden mutation. One of 32 children with cancer and thrombosis, and none of 35 who had not experienced thrombotic problems, was found heterozygous for this mutation. We conclude that the factor V Leiden mutation does not play a significant role in the overall incidence of thromboses that occur in children with cancer.     

A novel two base pair deletion in the factor V gene associated with severe factor V deficiency

We studied a family in which the proband, a 13-year-old boy, had unmeasurable plasma levels of coagulation factor V antigen and activity. Clinical symptoms were severe, with several episodes of haemorrhages in the mucosal tracts (gastrointestinal, nose and urinary) and recurrent haemarthroses that caused permanent arthropathy. Sequence analysis of the factor V gene demonstrated the presence of a novel 2 base pair (bp) homozygous deletion in exon 13 at positions 2833-2834. This mutation, present in the heterozygous state in the asymptomatic mother and absent in the healthy brother, introduced a frameshift and a premature stop at codon 900. This would predict the synthesis of a truncated factor V molecule, lacking part of the B domain and the complete light chain. Because of the existence of a surveillance mechanism that selectively recognizes and degrades mRNA molecules carrying premature termination codons, we analysed the relative abundance of mutant vs. wild-type mRNA molecules in the platelets of the heterozygous proband's mother. The mutant mRNA was significantly reduced in amount (mutant/wild-type ratio 0.35). This is the first reported mutation in the factor V gene causing severe factor V deficiency, the effect of which was quantitatively analysed at mRNA level.     

Type I coagulation factor V deficiency caused by compound heterozygous mutation of F5 gene

A 16-year-old Chinese female with prolonged bleeding after surgery has been studied. Routine clotting tests revealed a prolonged activated partial thromboplastin time (APTT; 126.6 s) and prothrombin time (PT; 42.8 s). The coagulation factors activities were normal except for factor V, which was only 0.3% of normal. DNA analysis of the FV gene revealed five nucleotide substitutions in exons, including two silent mutations (G327A and A5112G), one polymorphism (G1628A), a G1348T missense mutation and 4887 approximately 8delG. These abnormalities were associated with her FV deficiency, perhaps by causing a Gly392Cys substitution in FV amino acid sequence or by introducing a premature stop codon at amino acid position 1390. This is the third case in which FV deficiency is caused by compound heterozygous mutation of F5 gene, and is the first report from a Chinese family.     

The incidence of recurrent venous thromboembolism in carriers of factor V Leiden is related to concomitant thrombophilic disorders

The duration of anticoagulant treatment after a first episode of venous thromboembolism primarily depends on the risk of recurrence. Variability of recurrence rates in factor (F) V Leiden carriers may be due to concomitant thrombophilic disorders. A retrospective study was performed in 329 FV Leiden carriers with a history of venous thromboembolism (262 probands, 67 relatives). The annual rate of first recurrence was estimated in relatives. The contribution of concomitant thrombophilic disorders to the recurrence rate was evaluated in probands and relatives by a nested case--control analysis in 105 matched pairs of carriers either with or without recurrence. The overall annual recurrence rate was 2.3 per 100 patient-years. The adjusted risk of recurrence for concomitant thrombophilic disorders was: 9.1 (1.3-62.8) for the FII mutation; 1.0 (0.2-4.9) for homozygosity for FV Leiden; 1.5 (0.2-9.5) for inherited deficiencies of protein C or S; 1.8 (0.7-4.9) for FVIII coagulant activity (FVIII:C) levels >122%; 5.4 (1.6-18.6) for fasting homocysteine levels >15.2 micromol/l; and 4.4 (1.0-18.7) for loading homocysteine levels >45.8 micromol/l. Of these disorders, only the FII mutation and hyperhomocysteinaemia significantly increased the risk of recurrence in FV Leiden carriers. The estimated recurrence rate ranged from 0.45 per 100 patient--years after a secondary first event in the absence of concomitant disorders to 4.8 per 100 patient-years when a spontaneous first event was combined with concomitant disorders. Our study provides supportive evidence that the incidence of recurrent venous thromboembolism in heterozygous FV Leiden carriers depends on the concomitance of other thrombophilic disorders, in addition to whether the first thrombotic event occurred spontaneously.     

A missense mutation (Y1702C) in the coagulation factor V gene is a frequent cause of factor V deficiency in the Italian population.

BACKGROUND AND OBJECTIVES: Factor V (FV) deficiency is a rare bleeding disorder whose molecular bases are poorly characterized. We have recently described a FV missense mutation (Y1702C) predicting reduced FV levels in a thrombophilic patient and in a healthy individual. The aim of the present work was to assess the prevalence of the FV Y1702C mutation among subjects with FV deficiency. DESIGN AND METHODS: Carriership of the FV Y1702C mutation was tested in 8 patients with severe FV deficiency (FV:C <8%), in 16 individuals with asymptomatic partial FV deficiency (mean FV:C 38.0%, SD 11.6%) and in 9 patients with pseudo-homozygous APC-resistance (mean FV:C 46.2%, SD 3.6%). An AccI-restriction protocol was employed for rapid mutation screening. RESULTS: The FV Y1702C mutation was detected in two unrelated patients with unmeasurable FV levels (one being homozygous and the other doubly heterozygous for a still unknown mutation) and in one subject with partial FV deficiency (FV:C 30%). A striking difference in bleeding phenotype was observed between the homozygous patient and her asymptomatic brother with the same FV genotype. A multi-point FV haplotype analysis was performed in all unrelated carriers of the FV Y1702C mutation. Three haplotypes were found to underlie the mutation in different individuals, suggesting that it might have arisen independently more than once. INTERPRETATION AND CONCLUSIONS: FV Y1702C is a common cause of FV deficiency in the Italian population and might be a recurrent mutation.     

Combined factor V and factor VIII deficiency in a Thai patient: a case report of genotype and phenotype characteristics

A Thai woman, with no family history of bleeding disorders, presented with excessive bleeding after minor trauma and tooth extraction. The screening coagulogram revealed prolonged activated partial thromboplastin time and prothrombin time. The specific-factor assay confirmed the diagnosis of combined factor V and factor VIII deficiency (F5F8D). Her plasma levels of factor V and factor VIII were 10% and 12.5% respectively. The medications and blood product treatment to prevent bleeding from invasive procedure included 1-deamino-8-d-arginine vasopressin, cryoprecipitate, factor VIII concentrate, fresh frozen plasma and antifibrinolytic agent. Gene analysis of the proband identified two LMAN1 gene mutations; one of which is 823-1 G --> C, a novel splice acceptor site mutation that is inherited from her father, the other is 1366 C --> T, a nonsense mutation that is inherited from her mother. Thus, the compound heterozygote of these two mutations in LMAN1 cause combined F5F8D.