To assess the role of genetic variation in determining factor VII (FVII) activity and antigen levels we studied a polymorphism located in the 5′ region of the gene (5′F7), an intronic mutation (IVS7), and the
353
Arg-Gln polymorphism. All the polymorphisms, which showed strong allelic association, analyzed separately or in combination by the one-way analysis of variance, were associated with significantly different FVII levels. The 5′F7 and
353
Arg-Gln polymorphic systems, which have very similar allele frequencies, contributed to a similar extent to the total phenotypic variance, whereas the contribution of the IVS7 polymorphism was lower. Genetic variation at the FVII locus, evaluated on combined genotypes, accounted for up to 40% of the phenotypic FVII variance. As also shown by the two-way analysis of variance, the use of two out of three markers is advisable, and since the 5′F7 polymorphism can be screened by a simple immunoassay, it should be preferred for population-based studies. No substantial differences between FVII activity and FVII antigen levels were found, thus suggesting that the variation was due to biosynthesis- or stabilitymediated mechanisms. The genetic control of FVII levels described in this study plays an important role in determining plasma FVII level variability, which may influence the hemostatic balance.
(Arterioscler Thromb Vase Biol.
1996;16:72-75.)
Molecular defects and polymorphic haplotypes of coagulation factor VII gene were studied in eight unrelated Italian subjects with factor VII deficiency, seven having the factor VII- variant, one the factor VIIR variant. An intron 7 mutation, which alters the consensus donor splice site sequence, was found in six subjects. The presence of the founder effect is suggested by their common geographical origin (a mountain area in the Lazio region) and by the identical polymorphic haplotype underlying the mutation. A different mutation, also located in the 5' monomer of the repeated intron 7 sequence, was found in the heterozygous condition in a subject from Northern Italy. New polymorphic alleles were detected in the repeated intron 7 region in subjects from Eastern Africa. Two missense mutations in codon 97 (Gly-->Cys, Gly-->Ser), the first found in the compound heterozygous condition with the frequent intron 7 mutation, suggest the presence of a hot spot mutation site in the second epidermal growth factor domain. Two neutral dimorphisms at codon 333Ser and 115His were detected, the last in linkage disequilibrium with the 353Arg/Gln polymorphism, and showing differences in frequency in the FVII deficient and control subjects.
SummaryThis study was undertaken to analyze antibodies to protein S (PS) in patients with an acquired PS deficiency. Plasma from symptomatic patients with acquired (n = 14) or congenital (n = 10) PS deficiency and 10 healthy donors was screened for PS antibodies by immunoblotting and for anti-phospholipid antibodies. PS antibodies (IgG) were detected in five of the patients with acquired PS deficiency. These antibodies belonged to the G1 and G4 immunoglobulin subclasses. IgG fractions from the same 5 patients were shown to inhibit PS activity. The inhibition of PS activity by the 5 IgG fractions was shown to be time-and dose-dependent and was abolished following incubation with purified PS, while no effect was found after absorption with cardiolipin micelles. In addition, anticardiolipin monoclonal or human purified antibodies, failed to exert significant PS inhibition. These findings demonstrate that anti-PS antibodies are able to inhibit PS activity and that this is independent of anti-phospholipid antibodies. Given the clinical features of the patients, these antibodies should be regarded as an expression of the broad autoimmune syndrome involving the phospholipid-binding plasma proteins.
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