Fattore V

Il Fattore V riveste un doppio ruolo nella cascata coagulativa. Una funzione procoagulante come cofattore del Fattore X e anticoagulante come cofattore della Proteina C Attivata. Alterazioni del Fattore V possono causare patologie emorragiche o trombotiche.

Haematologica. 2008 Mar;93(3):477-8.

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

Lunghi B, Pinotti M, Maestri I, Batorova A, Bernardi F.

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.

PMID: 18310546 [PubMed - indexed for MEDLINE]
Blood Coagul Fibrinolysis. 2007 Mar;18(2):125-9.

Increased factor VIII coagulant activity levels in male carriers of the factor V R2 polymorphism.

Martinelli N, Girelli D, Ferraresi P, Olivieri O, Lunghi B, Manzato F, Corrocher R, Bernardi F.

Department of Clinical and Experimental Medicine, University of Verona, Italy. trentinik@jumpy.it

A common factor V gene haplotype, the FVR2 haplotype (FVHR2), has been associated with a reduced cofactor activity in activated protein C-mediated activated factor VIII inactivation. Our aim was to investigate the role of FVHR2 as a possible determinant of factor VIII levels in a population study. A total of 516 individuals (401 men, 115 women; mean age 58.4 +/- 10.8 years) were enrolled within the frame of a regional cardiovascular survey, characterized for factor VIII coagulant activity (FVIII:c) and factor V coagulant activity (FV:c) levels, and genotyped for factor V polymorphisms. In men without signs of overt inflammation, FVHR2 carriers had higher levels of FVIII:c than noncarriers (154 IU/dl, 95% confidence interval = 143-166 versus 142 IU/dl, 95% confidence interval = 138-147; P = 0.045) and were more represented in individuals with high (> or = 150 IU/dl) FVIII:c levels (21.2 versus 10.8%; odds ratio = 2.27, 95% confidence interval = 1.17-4.39 after adjustment for age, blood group and high-sensitivity C-reactive protein levels). In conclusion, this clinical report suggests the common FVHR2 as a possible independent determinant of FVIII:c levels. The report concomitantly addresses the relationship between factor V and factor VIII levels and supports the hypothesis of a mild prothrombotic role of FVHR2 by means of increased factor VIII levels.

PMID: 17287628 [PubMed - indexed for MEDLINE] 
J Thromb Haemost. 2005 Sep;3(9):2032-8. Epub 2005 Jun 24.

The factor V Glu1608Lys mutation is recurrent in familial thrombophilia.

Lunghi B, Scanavini D, Castoldi E, Gemmati D, Tognazzo S, Redaelli R, Ghirarduzzi A, Ieran M, Pinotti M, Bernardi F.

Department of Biochemistry and Molecular Biology, Ferrara University, Ferrara, Italy.

BACKGROUND: Co-inheritance of heterozygous factor V deficiency with FV Leiden enhances the activated protein C resistance (APCR) associated with this mutation, resulting in pseudo-homozygous APCR. The role of FV deficiency in modulating thrombotic risk in this rare condition is poorly understood. METHODS AND RESULTS: We have identified in thrombophilic patients with FV deficiency a novel FV gene mutation (c. 4996G>A), predicting the Glu1608Lys substitution in the A3 domain. The heterozygous mutation was detected in three unrelated patients, two carriers of the FV Leiden mutation, and one of the FVHR2 haplotype. The Glu1608Lys change was also present in two subjects with mild FV deficiency, and absent in 200 controls. The FV1608Lys carriers showed reduced mean FV activity (42% +/- 12%) and antigen (53% +/- 18%) levels and, in Western blot analysis, reduced amounts of intact platelet FV. The restriction fragment length polymorphism (RFLP) study identified two haplotypes underlying the mutation, which suggests that it is recurrent. In heterozygous subjects the amount of FV1608Lys mRNA in white blood cells was similar to that produced by the counterpart alleles (FVWt or FVHR2). Recombinant FV1608Lys (rFV1608Lys), detected by Western blot in the conditioned medium, was indistinguishable from rFVWt and FV antigen and activity were found to be respectively 44% +/- 20% and 13% +/- 4% of rFVWt. CONCLUSIONS: Our data indicate that FVGlu1608Lys predicts a CRM (plasma)/CRMred (cell culture) FV deficiency, and may contribute to thrombophilia in carriers of FV Leiden and FVHR2 haplotype via a pseudo-homozygosity mechanism. Our findings help to define the molecular bases of FV deficiency and thrombophilia.

PMID: 15975136 [PubMed - indexed for MEDLINE]
Arterioscler Thromb Vasc Biol. 2004 Jan;24(1):200-6. Epub 2003 Dec 1.

Modulation of factor V levels in plasma by polymorphisms in the C2 domain.

Scanavini D, Girelli D, Lunghi B, Martinelli N, Legnani C, Pinotti M, Palareti G, Bernardi F.

Department of Biochemistry and Molecular Biology, Ferrara University, Italy.

OBJECTIVE: Functional polymorphisms contributing to coagulation factor levels are preferential markers for association studies aimed at identifying prothrombic genetic components. METHODS AND RESULTS: Factor V (FV) microsatellite genotypes were found to be associated with FV levels (P=0.003). Single nucleotide polymorphisms analysis and sequencing of the promoter and of coding regions identified two polymorphisms (Met2120Thr, Asp2194Gly) present in 20% of the population (n=1013) that are responsible for genotype-phenotype associations. The effect of the Met2120Thr polymorphism, both in plasma (mean reduction of FV level in the heterozygous condition: 25%) and in recombinant FV studies (34% reduction), was comparable to that of the Asp2194Gly change (20% and 34%, respectively). The study of 10 subjects with a rare genotype indicated that the Asp2194Gly substitution is the functional determinant of the reduced FV levels associated with the FVHR2 haplotype. Among Leiden carriers, the doubly heterozygous condition for FV2120Thr was found to be associated with a significantly increased activated protein-C resistance (APCR) (P<0.05), and the doubly heterozygous condition for FV2194Gly was found to be more frequent (P=0.009) in symptomatic than in asymptomatic subjects. CONCLUSIONS: Extensive analysis of FV polymorphisms indicated that changes in the C2 domain modulate FV levels and might increase APCR and thrombotic risk in FV Leiden carriers through a pseudohomozygous mechanism.

PMID: 14656739 [PubMed - indexed for MEDLINE]
Haematologica. 2003 Oct;88(10):1182-9.

The factor V HR2 haplotype and the risk of venous thrombosis: a meta-analysis.

Castaman G, Faioni EM, Tosetto A, Bernardi F.

Department of Hematology, San Bortolo Hospital, Vicenza, Italy. castaman@hemato.ven.it

Background and Objectives: A complex haplotype of factor V gene (FV HR2) has been recently reported. FVHR2 possesses decreased co-factor activity to APC in the degradation of FVIIIa, and an increased ratio of the more procoagulant isoform FV1 compared to FV2. Contrasting results on whether the haplotype induces a significant risk of venous thromboembolism (VTE) have been reported. Design and Methods: It has been surmised that FVHR2 enhances the risk of VTE carried by FV Leiden. We carried out a meta-analysis of the reported studies on the role of HR2 haplotype in inducing a risk of VTE and the influence of the polymorphism on the risk carried by patients with FV Leiden. Results: Eight studies were analyzed for the estimation of the risk of VTE. A total of 338 out of 2,696 cases (12.5%; range 7.8 to 18.5%) and 885 out of 7,710 controls (11.5%; range 8.1 to 12.1%) were HR2 positive. The odds ratio for VTE associated with HR2 haplotype was not statistically significant (OR 1.15; 95% C.I. 0.98-1.36). The OR for the association between FV Leiden and FV HR2 and the risk of VTE in cases and controls was largely heterogeneous as to OR and 95% C.I. and no statistical significant difference was observed. Interpretation and Conclusions: The data from the present meta-analysis suggests that FVHR2 could be a very mild prothrombotic factor. The association of FV Leiden and HR2 haplotype seems not to increase significantly the risk of VTE carried by isolated heterozygosity for FV Leiden. However, well-designed clinical studies are needed to clarify this issue definitely.

PMID: 14555316 [PubMed - indexed for MEDLINE]
Br J Haematol. 2001 Sep;114(4):868-70.
                     
A highly polymorphic microsatellite in the factor V gene is an informative tool for the study of factor V-related disorders.

Castoldi E, Lunghi B, Mingozzi F, Simioni P, Girolami A, Bernardi F.

Department of Biochemistry and Molecular Biology, University of Ferrara, Via L. Borsari 46, I-44100 Ferrara, Italy.

The role of factor V (FV) mutations in activated protein C (APC) resistance and FV deficiency is well established. We report on the identification of a highly polymorphic (AT)n microsatellite marker in the FV gene, which represents an informative tool for the investigation of the origin and evolution of pathologically relevant FV genetic components. A high number of different microsatellite alleles were found to be associated with FV R506Q and FV H1299R, two single-origin mutations. An example of the use of the microsatellite marker in family studies of thrombophilia and FV deficiency is also provided.

PMID: 11564076 [PubMed - indexed for MEDLINE]
Haematologica. 2001 Jun;86(6):629-33.

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

Castoldi E, Lunghi B, Mingozzi F, Muleo G, Redaelli R, Mariani G, Bernardi F.

Department of Biochemistry and Molecular Biology, Ferrara University, Italy.

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.

PMID: 11418372 [PubMed - indexed for MEDLINE]
Thromb Haemost. 2001 Jan;85(1):75-81.

Functional properties of factor V and factor Va encoded by the R2-gene.

Hoekema L, Castoldi E, Tans G, Girelli D, Gemmati D, Bernardi F, Rosing J.

Department of Biochemistry, Cardiovascular Research Institute, Maastricht, Maastricht University, The Netherlands.

Carriership of the factor V (FV) gene marked by the R2-haplotype, a series of linked polymorphisms encoding several amino acid changes in FV, is associated with mild resistance to activated protein C (APC) and with an increased risk of thrombosis. We compared the functional properties of normal FV(a) and R2-FV(a) in model systems and in plasma. FV and R2-FV were equally well activated by thrombin and expressed identical cofactor activities in prothrombin activation. Rate constants of APC-catalyzed inactivation of FVa and R2-FVa were similar both with and without protein S. However, significant differences were observed between haemostatic parameters determined in plasma from homozygous carriers of the R2-gene (n = 5) and age-matched non-carriers (n = 19). Plasma from R2-carriers contained significantly lower FV levels and the ratio of the two FV isoforms (FV1 and FV2) was shifted in favor of FV1. The FV2/FV1 ratio was 1.4 (95% CI = 1.3-1.5) in homozygous carriers of R2 and 2.8 (95% CI = 2.5-3.1) in controls (p < 0.00001). In an APC resistance test which quantifies the cofactor activity of FV in APC-catalyzed FVIII(a) inactivation, homozygous R2-carriers had significantly lower (p < 0.00001) APC sensitivity ratios (APCsr = 1.54, 95% CI = 1.48-1.60) than controls (APCsr = 2.17, 95% CI = 2.05-2.28). This indicates that R2-FV has reduced cofactor activity in APC-catalyzed FVIII(a) inactivation. The changes of the relative amounts of FV1 and FV2 in carriers of the R2-gene will result in increased thrombin formation in the presence of APC and may provide a mechanistic explanation for the increased thrombotic risk associated with the R2-haplotype.

PMID: 11204592 [PubMed - indexed for MEDLINE]
Thromb Haemost. 2000 Mar;83(3):362-5.

Mutations in the R2 FV gene affect the ratio between the two FV isoforms in plasma.

Castoldi E, Rosing J, Girelli D, Hoekema L, Lunghi B, Mingozzi F, Ferraresi P, Friso S, Corrocher R, Tans G, Bernardi F.

Department of Biochemistry and Molecular Biology, Ferrara University, Italy.

Molecular genetics and biochemical studies were performed in homozygotes for the R2 allele (4070G) in the factor V gene, most of them affected by coronary artery disease. Novel polymorphisms (G642T, 156Ser; T1328C, 385Met/Thr), among which a functional candidate (A6755G, 2194Asp/Gly) located in the C2 domain of FV, were identified in the R2 gene. In chromatographic studies R2 FV appeared qualitatively identical to normal FV. However, a relative increase of the more thrombogenic and more glycosylated FV isoform (FV1) was observed in plasma of 2194Gly homozygotes (mean FV1/FV2 ratio 0.71, 95% CI 0.66-0.77) as compared to R2-free controls (0.37, 95% CI 0.34-0.40). We conclude that carriership of the R2 FV gene is associated with an imbalance between the two functionally different FV isoforms, and propose that genetically determined differential glycosylation of FV could represent a novel mechanism of thrombotic disease.

PMID: 10744138 [PubMed - indexed for MEDLINE]
Thromb Haemost. 1997 Sep;78(3):1037-41.

New coagulation factor V gene polymorphisms define a single and infrequent haplotype underlying the factor V Leiden mutation in Mediterranean populations and Indians.

Castoldi E, Lunghi B, Mingozzi F, Ioannou P, Marchetti G, Bernardi F.

Dipartimento di Biochimica e Biologia Molecolare, Università di Ferrara, Italy.

Two novel polymorphisms were identified in the factor V gene by direct sequencing of intronic areas. One of them, located in intron 9, is the marker closest to the Leiden mutation ever described, whereas the other, in intron 16, displays a rare allele invariantly associated to the mutation. Allele-specific amplification protocols were designed to perform extensive screenings for both polymorphic sites. The new markers were used in combination with six previously described polymorphisms to define specific factor V gene haplotypes. Haplotype investigations in 506Q homozygous thrombotic patients and normal controls showed the presence of a single haplotype underlying the factor V Leiden mutation in Mediterranean populations (among which Greek Cypriots, where the R506Q mutation is particularly frequent) and Indians. When traced in the absence of the Leiden mutation, the background haplotype was found to be present and roughly as frequent as the mutation itself in these populations. These findings indicate a single mutational event, that probably occurred outside Europe, as the cause of the Leiden mutation and provide a powerful tool to investigate its evolutionary history.

PMID: 9308750 [PubMed - indexed for MEDLINE]
Thromb Haemost. 1996 Jan;75(1):45-8.
Detection of new polymorphic markers in the factor V gene: association with factor V levels in plasma.

Lunghi B, Iacoviello L, Gemmati D, Dilasio MG, Castoldi E, Pinotti M, Castaman G, Redaelli R, Mariani G, Marchetti G, Bernardi F.

Dip. di Biochimica e Biologia Molecolare, Università di Ferrara, Italy.

Three novel polymorphisms were found in the repeated region of the large exon 13 of factor V gene, one giving rise to a codon dimorphism (Ser1240) and two causing aminoacid substitutions (His1299Arg, Leu1257Ile). An increasing frequency of the Arg1299 (R2 allele) correlated with a decreasing mean plasma factor V activity in the groups of subjects under study, which included 26 unrelated subjects with partial factor V deficiency. Family studies supported the co-inheritance both of low factor V activity and of R2 allele. The reduction of factor V activity associated with the R2 allele was not clinically symptomatic even in the homozygous condition and was characterized by a parallel reduction of antigen in plasma, in which abnormal molecules were not detected. Data suggest that the R2 allele represents a marker in linkage with an unknown defect rather than a functional polymorphism. These studies provide the first evidence of a genetic component in determining factor V levels in plasma and of a genetic linkage between the factor V gene and factor V deficiency. They also define specific haplotypes which are associated with factor V deficiency or with APC resistance (Arg506Gln) and are valuable tools for the study of factor V defects.

PMID: 8713778 [PubMed - indexed for MEDLINE]