Mutations in the R2 FV Gene Affect the Ratio between the Two FV Isoforms in Plasma

Mutations in the R2 FV Gene Affect the Ratio between the Two FV Isoforms in Plasma

Summary 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...

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Veröffentlicht in:Thrombosis and haemostasis 2000-03, Vol.83 (3), p.362-365
Hauptverfasser: Castoldi, Elisabetta, Rosing, Jan, Girelli, Domenico, Hoekema, Lico, Lunghi, Barbara, Mingozzi, Federico, Ferraresi, Paolo, Friso, Simonetta, Corrocher, Roberto, Tans, Guido, Bernardi, Francesco
Format: Artikel
Sprache:eng
Schlagworte:
Aged
Alleles
Base Sequence
Biological and medical sciences
Blood coagulation. Blood cells
Case-Control Studies
Coagulation factors
Coronary Disease - blood
Coronary Disease - genetics
DNA Primers - genetics
Factor V - genetics
Factor V - metabolism
Female
Fundamental and applied biological sciences. Psychology
Genotype
Homozygote
Humans
Male
Middle Aged
Molecular and cellular biology
Mutation
Phenotype
Polymorphism, Genetic
Protein Isoforms - blood
Protein Isoforms - genetics
Rapid Communications
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Zusammenfassung:Summary 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.
ISSN:0340-6245
2567-689X
DOI:10.1055/s-0037-1613821