Nucleotide sequence of the gene coding for human factor VII, a vitamin K-dependent protein participating in blood coagulation.

O׳Hara, Patrick J.; Grant, Francis James; Haldeman, Betty A.; Gray, Charles L.; Insley, Margaret Y.; Hagen, Frederick S.; Murray, Mark J.

doi:10.1073/pnas.84.15.5158

Cited by 303 publications

(194 citation statements)

References 46 publications

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“…FVII exhibited true circadian rhythms, further supported by the presence in mouse 29 (Ϫ483, Ϫ1054) and human 30 (Ϫ140) FVII 5Ј flanking regions of E-box sequences, hallmarks of putative regulation by clock proteins. 31 Our data suggest that the chronobiological features of these coagulation factors, and particularly their variation patterns, have to be taken into account in the analysis of FVII and TFPI plasma levels.…”

Section: Discussionmentioning

confidence: 99%

Daily and Circadian Rhythms of Tissue Factor Pathway Inhibitor and Factor VII Activity

Pinotti

Bertolucci

Portaluppi

et al. 2005

ATVB

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Objective-Diurnal variations in levels of factor VII (FVII), FVIII, proteins C and S, antithrombin, plasminogen activator inhibitor-1, prothrombin fragment F 1ϩ2 , and D-dimers in healthy humans point to the existence of circadian rhythms of coagulation factors. We sought for temporal fluctuations of tissue factor pathway inhibitor (TFPI) activity in human and mouse plasma. Methods and Results-TFPI activity showed significant daily variations with highest levels in the morning in healthy men (ϩ11%) and in mice at the light-to-dark transition (ϩ63%), the beginning of the physically active period. Variations in FVII activity paralleled those in TFPI. In mice, the feeding schedule had a strong impact on these rhythms. Although restricted feeding and fasting shifted the peak of TFPI, the FVII peak disappeared. Investigation of temporal fluctuations in constant darkness indicated the existence of daily rhythms for TFPI and of true circadian rhythms for FVII. Conclusions-For the first time, we report, both in humans and mice, temporal variations in TFPI activity. The coherent variations in FVII and TFPI activity could interplay to maintain the coagulation equilibrium. The chronobiological patterns should be considered to analyze activity levels of these factors. Moreover, the mouse model could be exploited to investigate modifiers of coagulation rhythms potentially associated to morning peaks of cardiovascular events. Key Words: factor VII Ⅲ TFPI Ⅲ circadian Ⅲ feeding schedule Ⅲ mouse model F requencies of thromboembolic events in humans exhibit marked diurnal variations, 1-3 with peaks from morning to noon. Temporal variations in the occurrence of hemorrhagic events have also been reported. 4 Fluctuations in coagulation factor levels able to influence the hemostatic balance might contribute to these adverse outcomes. Diurnal rhythms in levels of factor VII (FVII), 5 FVIII, 6 proteins C and S 7 , antithrombin, 7 and plasminogen activator inhibitor (PAI)-1 8 have been described in healthy humans. Temporal oscillations in prothrombin fragment F 1ϩ2 5-6 and D-dimer, 6 markers of thrombin generation and fibrinolysis, have been also described. These variations could reflect the existence of circadian rhythms of blood coagulation factors. Circadian rhythms are the overt expression of an internal timing mechanism measuring daily time, with the fundamental adaptive function of providing optimal temporal organization of physiological processes in relation to the environment. 9 Because formal assessment of circadian rhythms in coagulation factor levels is hardly feasible in humans, a circadian control has been so far demonstrated in a mouse model for PAI-1 10 -11 and fibrinogen 12 mRNA expression.Among factors interacting with circadian rhythms, daily availability of food represents a major component. Several studies suggested that postprandial and fasting lipoproteins are associated with plasma levels or activation state of coagulation factors, and particularly of FVII 13-17 that plays a key role in the initiation of the clott...

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Section: Discussionmentioning

confidence: 99%

Daily and Circadian Rhythms of Tissue Factor Pathway Inhibitor and Factor VII Activity

Pinotti

Bertolucci

Portaluppi

et al. 2005

ATVB

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“…DGGE could not be applied to the entire coding sequence because the base composition of FVII gene is GC rich with a 60% G+C content. 7 This characteristic is common to other vitamin K dependent factors such as factor X or Protein C. 7 This explains why gradients with high percentages of denaturant as well as long running times were necessary to accurately identify FVII mutations using DGGE. However, DGGE screening allowed the detection of 46 out of the 68 FVII mutated alleles (68%), corresponding to the complete genotypes of one third of the patients (13/37).…”

Section: Discussionmentioning

confidence: 99%

“…The coding portions, intron/exon boundaries and the 5' flanking region (5'FR) of the FVII gene were amplified from genomic DNA by polymerase chain reaction (PCR). Primer sets were designed according to the published FVII gene sequence 7 and are listed in Table 2.…”

Section: Blood Collectionmentioning

confidence: 99%

Analysis of the genotypes and phenotypes of 37 unrelated patients with inherited factor VII deficiency

et al. 2001

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Severe inherited factor VII (FVII) deficiency is a rare autosomal recessive disorder with a poor relationship between FVII coagulant activity and bleeding tendency. Both clinical expression and mutational spectrum are highly variable. We have screened for mutations the FVII gene of 37 unrelated patients with a FVII coagulant activity less than 5% of normal pooled plasmas. The nine exons with boundaries and the 5' flanking region of the FVII gene were explored using a combination of denaturing gradient gel electrophoresis and direct DNA sequencing. This strategy allowed us to characterise 68 out of the 74 predicted FVII mutated alleles. They corresponded to a large panel of 40 different mutations. Among these, 18 were not already reported. Genotypes of the severely affected patients comprised, on both alleles, deleterious mutations which appeared to be related to a total absence of activated FVII. We suggest that this absence of functional FVII can explain the severe clinical expression. Whether a small release of FVII is sufficient to initiate the coagulation cascade and to prevent the expression of a severe phenotype, requires further investigations.

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“…The N-terminal domain, encoded on a separate exon, contains the first 37 amino acid residues including all 10 y-carboxyglutamic acid (Gla) residues [2]. This so-called Gla domain binds seven Ca r+ ions [3,4], an event mediated by the Gla residues, and thereby attains a membrane-interactive ability through the exposure of hydrophobic side chains [4,5].…”

Section: Introductionmentioning

confidence: 99%

Site‐directed mutagenesis but not γ‐carboxylation of Glu‐35 in factor VIIa affects the association with tissue factor

Persson

Nielsen

1996

FEBS Letters

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Factor VIIa is a vitamin K-dependent enzyme whose ~-carboxyglutamic acid (Gla)-containing domain is important for calcium ion-dependent binding to the cofactor tissue factor and membrane surfaces. This domain contains 10 Gla residues, the individual roles and importance of which are not known. Comparisons with the homologous protein C, factor IX and prothrombin may provide functional information on the first nine Gla residues, whereas no data can be extrapolated to Gla-35 in factor VIIa. Therefore, the effects of posttranslational ycarboxylation and site-directed mutagenesis of Glu-35 were investigated. Mutations to Asp, Gin or Val all lead to a lower affinity for tissue factor by decreasing the rate of association, in the case of the Val mutant by a factor of 200, as measured by surface plasmon resonance. In contrast, Gin or Gla side chains at position 35 appear to fulfil the functional roles equally well.

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Nucleotide sequence of the gene coding for human factor VII, a vitamin K-dependent protein participating in blood coagulation.

Cited by 303 publications

References 46 publications

Daily and Circadian Rhythms of Tissue Factor Pathway Inhibitor and Factor VII Activity

Daily and Circadian Rhythms of Tissue Factor Pathway Inhibitor and Factor VII Activity

Analysis of the genotypes and phenotypes of 37 unrelated patients with inherited factor VII deficiency

Site‐directed mutagenesis but not γ‐carboxylation of Glu‐35 in factor VIIa affects the association with tissue factor

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