Your search keyword '"Lunghi B"' showing total 9 results

1. Novel phenotype and γ-glutamyl carboxylase mutations in combined deficiency of vitamin K-dependent coagulation factors.

Author

Lunghi B, Redaelli R, Caimi TM, Corno AR, Bernardi F, and Marchetti G

Subjects

Adolescent, DNA Mutational Analysis, Humans, Male, Phenotype, Vitamin K metabolism, Carbon-Carbon Ligases genetics, Coagulation Protein Disorders genetics, Mutation genetics, Vitamin K Deficiency genetics

Published

2011

2. Asymptomatic carriership of factor V Leiden and genotypes of the fibrinogen gene cluster.

Author

Marchetti G, Ferraresi P, Legnani C, Pinotti M, Lunghi B, Scapoli C, Gemmati D, Coccheri S, Palareti G, and Bernardi F

Subjects

Adolescent, Adult, Aged, DNA analysis, DNA genetics, Female, Genotype, Heterozygote, Humans, Male, Middle Aged, Polymorphism, Genetic, Thrombophilia genetics, Venous Thrombosis genetics, Factor V genetics, Fibrinogen genetics, Mutation genetics

Abstract

We investigated the role of frequent fibrinogen polymorphisms in venous thromboembolic disease in conjunction with inherited thrombophilia. Two hundred unrelated subjects, all carriers of the factor V R506Q mutation (FV Leiden), were genotyped at the fibrinogen gene cluster. Among these subjects, 100 had experienced previous venous thromboembolism (VTE) and 100 were still asymptomatic for VTE. Significant differences were observed between the groups for the BclI polymorphism (P = 0.004). Scanning, by sequencing the DNA regions flanking the BclI marker, revealed new polymorphisms, a C to T transition and a G to T transversion at 1520 and 3369 base pairs 3' to the beta gene stop codon respectively. These markers showed less association with the clinical phenotype than BclI itself. A combined genotype including 10 markers was more frequent among the asymptomatic subjects (17%) than among patients (3%), and was associated with a reduction in fibrinogen antigen level (2.42 +/- 0.35 vs 2.69 +/- 0.41 g/l, P = 0.028) among the asymptomatic subjects. Our data suggest that, in the presence of inherited thrombophilia, frequent fibrinogen polymorphisms may interact to modulate the risk of venous thromboembolism.

Published

2003

3. Combinations of 4 mutations (FV R506Q, FV H1299R, FV Y1702C, PT 20210G/A) affecting the prothrombinase complex in a thrombophilic family.

Author

Castoldi E, Simioni P, Kalafatis M, Lunghi B, Tormene D, Girelli D, Girolami A, and Bernardi F

Subjects

Amino Acid Sequence, Female, Humans, Male, Middle Aged, Molecular Sequence Data, Pedigree, Mutation, Thrombophilia genetics, Thromboplastin genetics

Abstract

The study of the molecular bases of thrombophilia in a large family with 4 symptomatic members is reported. Three thrombophilic genetic components (FV R506Q, FV H1299R, and PT 20210G/A), all affecting the activity of the prothrombinase complex, were detected alone and in combination in various family members. In addition, a newly identified missense mutation (factor V [FV] Y1702C), causing FV deficiency, was also present in the family and appeared to enhance activated protein C (APC) resistance in carriers of FV R506Q or FV H1299R by abolishing the expression of the counterpart FV allele. The relationships between complex genotypes, coagulation laboratory findings, and clinical phenotypes were analyzed in the family. All symptomatic family members were carriers of combined defects and showed APC resistance and elevated F1 + 2 values. Evidence for the causative role of the FV Y1702C mutation, which affects a residue absolutely conserved in all 3 A domains of FV, factor VIII, and ceruloplasmin, relies on (1) the absolute cosegregation between the mutation and FV deficiency, both in the family and in the general population; (2) FV antigen and immunoblot studies indicating the absence of Y1702C FV molecules in plasma of carriers of the mutation, despite normal levels of the FV Y1702C messenger RNA; and (3) molecular modeling data that support a crucial role of the mutated residue in the A domain structure. These findings help to interpret the variable penetrance of thrombosis in thrombophilic families and to define the molecular bases of FV deficiency. (Blood. 2000;96:1443-1448)

Published

2000

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

Author

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

Subjects

Aged, Alleles, Base Sequence, Case-Control Studies, Coronary Disease blood, Coronary Disease genetics, DNA Primers genetics, Factor V metabolism, Female, Genotype, Homozygote, Humans, Male, Middle Aged, Phenotype, Polymorphism, Genetic, Protein Isoforms blood, Protein Isoforms genetics, Factor V genetics, Mutation

Abstract

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.

Published

2000

5. Molecular bases of pseudo-homozygous APC resistance: the compound heterozygosity for FV R506Q and a FV null mutation results in the exclusive presence of FV Leiden molecules in plasma.

Author

Castoldi E, Kalafatis M, Lunghi B, Simioni P, Ioannou PA, Petio M, Girolami A, Mann KG, and Bernardi F

Subjects

Aged, Female, Heterozygote, Humans, Drug Resistance genetics, Factor V genetics, Mutation, Protein C pharmacology

Abstract

Pseudo-homozygous APC resistance, the condition resulting from compound heterozygosity for FV R506Q (FV Leiden) and quantitative FV deficiency, provides a natural model to study the interaction between procoagulant and anticoagulant defects. This paper reports a complete FV characterization of a pseudo-homozygous APC resistant thrombotic patient. The expression of the patient's non-Leiden gene was found to be severely impaired both at the mRNA and protein levels. In particular, only FV Leiden molecules were detected in the patient's plasma by immunoblotting, which accounts for the observed marked APC resistance. Analysis of the FV cDNA obtained by reverse transcription of platelet RNA revealed that the mRNA of the non-Leiden gene was extremely reduced in amount. A PAC clone containing the whole FV gene was used to design primers for a complete FV exon scanning. A 2-bp insertion at nucleotide 3706 in the large exon 13 of the non-Leiden gene, predicting a frame-shift and premature termination of protein synthesis, was identified as responsible for the FV defect. Failure to find any case of pseudo-homozygous APC resistance in a large sample (6,804) of blood donors suggests that this condition is extremely rare among normal controls and that its detection is favoured by the thrombotic risk that it may confer.

Published

1998

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

Author

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

Subjects

Cyprus, Genetic Markers, Greece ethnology, Heterozygote, Homozygote, Humans, India, Italy, Polymerase Chain Reaction, Somalia, Factor V genetics, Gene Frequency, Haploidy, Mutation, Polymorphism, Genetic

Abstract

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.

Published

1997

7. Mutation pattern in clinically asymptomatic coagulation factor VII deficiency.

Author

Bernardi F, Castaman G, Pinotti M, Ferraresi P, Di Iasio MG, Lunghi B, Rodeghiero F, and Marchetti G

Subjects

Factor VII Deficiency diagnosis, Female, Genotype, Humans, Male, Pedigree, Prothrombin Time, Restriction Mapping, Factor VII Deficiency genetics, Mutation

Abstract

A total of 122 subjects, referred after presurgery screening or checkup for prolonged prothrombin time, were characterized for the presence of coagulation factor VII deficiency. Fourteen subjects carried a partial and asymptomatic deficiency, and in half of them dysfunctional molecules were detected in plasma. In nine subjects we found five missense mutations differing from those previously found in factor VII deficient patients. The others were homozygous for a common polymorphism (R353Q) that affects factor VII levels. A new codon dimorphism (A330) was also found in exon 8. Four mutations (R223W, M298I, R304Q, and R353Q) located at FVII-specific residues point out protein regions that are important for coagulation factor evolution, and two mutations (G342E and E265K) affect generic or partially generic residues. The newly reported mutations were combined with those we previously found, totalling 17 independent mutations responsible for FVII deficiency in 27 Italian pedigrees. We observed several similarities with the mutation pattern determined in factor IX, which include a high percentage of transitions at CpG doublets, the presence of hot spot sites affected by multiple substitutions, and of several topologically equivalent mutations.

Published

1996

8. A novel mutation (Leu817Pro) causing type 2A von Willebrand disease.

Author

Gemmati D, Serino ML, Moratelli S, Ballerini G, Furbetta M, Lunghi B, Marchetti G, and Bernardi F

Subjects

Base Sequence, Humans, Leucine genetics, Male, Middle Aged, Molecular Sequence Data, Pedigree, Polymerase Chain Reaction, Proline genetics, Mutation, von Willebrand Diseases genetics, von Willebrand Factor genetics

Abstract

We studied a patient affected by von Willebrand disease type 2A who experienced several mild bleeding episodes and was characterized by markedly reduced haemostatic parameters. In the exon 28 of von Willebrand factor (vWF) gene a T to C transition at nucleotide 8680, resulting in the missense mutation Leu817Pro, was found in the heterozygous form in the patient and in two affected relatives. As suggested by the presence in platelets of a complete spectrum of vWF multimers as well as by the increased vWF antigen levels and improved haemostasis after DDAVP treatment, the mutation is compatible with normal multimerization, and could be responsible for a reduced stability or an impaired physiological secretion of vWF.

Published

1996

9. Molecular bases of CRM+ factor X deficiency: a frequent mutation (Ser334Pro) in the catalytic domain and a substitution (Glu102Lys) in the second EGF-like domain.

Author

Marchetti G, Castaman G, Pinotti M, Lunghi B, Di Iasio MG, Ruggieri M, Rodeghiero F, and Bernardi F

Subjects

Base Sequence, Blood Coagulation genetics, Blotting, Western, Exons, Humans, Male, Middle Aged, Molecular Sequence Data, Pedigree, Polymorphism, Genetic, Factor X genetics, Factor X Deficiency genetics, Mutation

Abstract

The presence of gene lesions in coagulation factor X (FX, Stuart factor) was investigated in asymptomatic subjects with FX deficiency characterized by the presence of dysfunctional molecules in plasma, as demonstrated by the discrepancy between clotting activity and antigen level. A missense mutation (Ser334Pro) in the catalytic domain was found in three unrelated families in both the homozygous and the heterozygous conditions, and also in the compound heterozygous form with the substitution of Lys for 102 Glu. None of the mutations was detected in 40 unrelated subjects from the same geographic area. The Ser334Pro mutation affects a serine protease region characterized by extensive variation in the coagulation factors but conserved in mammalian factor X molecules. The Glu102Lys mutation affects a residue of the second EGF-like module also conserved in protein C. Both mutated residues are surface-exposed and found in protein regions suggested to be involved in macromolecular interactions which are impaired in the dysfunctional molecules.

Published

1995