Summary. Factor VII (FVII) deficiency is the most frequent among rare congenital bleeding disorders, accounting for one symptomatic individual per 500 000 population, apparently without any racial/ ethnic predilection. FVII deficiency prevalence in the general population is probably higher because of the presence of asymptomatic and poorly symptomatic individuals. In accordance with the role of FVII as part of the initiating complex of the extrinsic coagulation pathway, laboratory diagnosis is easy, because FVII deficiency is the only congenital bleeding disorder characterized by isolated prolonged prothrombin time. Molecular diagnosis is available, and a broad spectrum of mutations has been characterized in the FVII gene, which is located in chromosome 13. Clinical manifestations are heterogeneous, ranging from severe life-threatening haemorrhages, such as cerebral, gastrointestinal, and joint haemorrhages, to miscellaneous minor bleeding. The main clinical features in our database (International Registry on Congenital FVII Deficiency database, n = 515) are as follows: (i) the absence of a clear-cut and consistent correlation between bleeding symptoms and FVII clotting levels; (ii) an excess of symptomatic women compared with men; (iii) frequent surgery-related bleeding, which is often a diagnostic tool in previously asymptomatic individuals. Several therapeutic options are possible, including plasma-derived and recombinant products, but therapeutic schedules, optimal dosages, and administration times still have to be precisely defined, and clinical studies, including online registries such as the Seven Treatment Evaluation Registry, are actually ongoing to achieve in a better manner a safe, rational and standardized substitution treatment for this congenital disorder.
Hereditary combined vitamin K-dependent clotting factors deficiency (VKCFD) is a rare congenital bleeding disorder resulting from variably decreased levels of coagulation factors II, VII, IX and X as well as natural anticoagulants protein C, protein S and protein Z. The spectrum of bleeding symptoms ranges from mild to severe with onset in the neonatal period in severe cases. The bleeding symptoms are often life-threatening, occur both spontaneously and in a surgical setting, and usually involve the skin and mucosae. A range of non-haemostatic symptoms are often present, including developmental and skeletal anomalies. VKCFD is an autosomal recessive disorder caused by mutations in the genes of either gamma-glutamyl carboxylase or vitamin K2,3-epoxide reductase complex. These two proteins are necessary for gamma-carboxylation, a post-synthetic modification that allows coagulation proteins to display their proper function. The developmental and skeletal anomalies seen in VKCFD are the result of defective gamma-carboxylation of a number of non-haemostatic proteins. Diagnostic differentiation from other conditions, both congenital and acquired, is mandatory and genotype analysis is needed to confirm the defect. Vitamin K administration is the mainstay of therapy in VKCFD, with plasma supplementation during surgery or severe bleeding episodes. In addition, prothrombin complex concentrates and combination therapy with recombinant activated FVII and vitamin K supplementation may constitute alternative treatment options. The overall prognosis is good and with the availability of several effective therapeutic options, VKCFD has only a small impact on the quality of life of affected patients.
Natural and engineered carboxy-terminal variants: decreased secretion and gain-of-function result in asymptomatic coagulation factor VII deficiency
Articles and Brief Reportshaematologica | 2012; 97 (5) 705 IntroductionThe congenital deficiency of coagulation factor VII (FVII) (OMIM: 227500) is a rare hemorrhagic disorder with an autosomal recessive inheritance pattern.1 Clarification of the relationship between FVII coagulant activity levels in plasma and bleeding diathesis is greatly helped by our understanding of the molecular mechanisms through which F7 gene mutations 2-3 modulate FVII levels. Nonsense mutations, by inducing mRNA degradation 4 and/or premature termination of translation and synthesis of truncated proteins, are often responsible for very severe forms of human diseases. As expected from the crucial role of FVII in coagulation, 5 very few homozygous patients present this type of mutation and these are associated with undetectable FVII levels and severe 6-8 or moderate 9 bleeding. Coagulation serine proteases share extensive homology 10 but are highly variable in their carboxy-terminal region, the functional role of which has still not been established.In this study, we characterized the p.R462X nonsense mutation and provided evidence for its pleiotropic effects, i.e. reduced secretion and increased specific activity, thus explaining the asymptomatic phenotype in patients. Furthermore, a panel of recombinant carboxy-terminal variants contributed to our understanding of the role of this highly variable region in coagulation serine proteases. Design and Methods PatientsThe proposita (PFVII-R462X) is a 12-year old girl who had been diagnosed for FVII deficiency during a routine coagulation screening. The patient presented with a prolonged prothrombin time (8%) and decreased FVII coagulant activity (3 and 5% of normal in 2 samples taken one year apart); all other coagulation factors functioned normally. She had no history of any bleeding and continues to be asymptomatic. F7 gene sequencing 11 identified the c.1384C>T transition (GenBank #NM_000131.3) in a homozygous condition. This Natural and engineered carboxy-terminal variants: decreased secretion and gain-of-function result in asymptomatic coagulation factor VII deficiency 74 -44121 Ferrara, Italy. Phone: international +39.0532974424. Fax: international +39.0532974484. E-mail: pnm@unife.it We report 2 asymptomatic homozygotes for the nonsense p.R462X mutation affecting the carboxy-terminus of coagulation factor VII (FVII, 466 aminoacids). FVII levels of 3-5% and 2.7±0.4% were found in prothrombin time-based and activated factor X (FXa) generation assays with human thromboplastins. Noticeably, FVII antigen levels were barely detectable (0.7±0.2%) which suggested a gain-of-function effect. This effect was more pronounced with bovine thromboplastin (4.8±0.9%) and disappeared with rabbit thromboplastin (0.7±0.2%). This suggests that the mutation influences tissue factor/FVII interactions. Whereas the recombinant rFVII-462X variant confirmed an increase in specific activity (~400%), a panel of nonsense (p.P466X, p.F465X, p.P464X, p.A463X) and missense (p.R462A, p.R462Q, p.R462W) mutations o...
Summary. Background: The autosomally-inherited factor VII (FVII) deficiency and X-linked hemophilia B offer an attractive model to investigate whether reduced levels of FVII and FIX, acting in the initiation and amplification of coagulation respectively, influence hemostasis to a different extent in relation to age and bleeding site. Methods: Hemophilia B patients (n = 296) and FVII-deficient males (n = 109) were compared for FVII/FIX clotting activity, F7/F9 genotypes and clinical phenotypes in a retrospective, multi-centre, cohort study. Results: Major clinical differences between diseases were observed. Bleeding occurred earlier in hemophilia B (median age 2.0 years, IR 0.9-5.0) than in FVII deficiency (5.2 years, IR 1.9-15.5) and the bleeding-free survival in FVII deficiency was similar to that observed in ÔmildÕ hemophilia B (P = 0.96). The most frequent disease-presenting symptoms in hemophilia B (hematomas and oral bleeding) differed from those in FVII deficiency (epistaxis and central nervous system bleeding). Differences were confirmed by analysis of FVII-deficient women. Conclusions: Our data support the notion that low FVII levels sustain hemostasis better than similarly reduced FIX levels. On the other hand, minute amounts of FVII, differently to FIX, are needed to prevent fatal bleeding, as indicated by the rarity of null mutations and the associated lifethreatening symptoms in FVII deficiency, which contributes towards shaping clinical differences between diseases in the lowest factor level range. Differences between diseases are only partially explained by mutational patterns and could pertain to the specific roles of FVII and FIX in coagulation phases and to vascular bed-specific components.
Severe venous thromboembolism in a young man with Klinefelter's syndrome and heterozygosis for both G20210A prothrombin and factor V Leiden mutations
Klinefelter's syndrome is the most common cause of primary testicular failure, resulting in impairment of both spermatogenesis and testosterone production. It is a chromosomal disorder characterized by small, firm testes, azoospermia, gynecomastia, varying degrees of eunuchoidism and testosterone deficiency with elevated gonadotropin plasma levels. In Klinefelter's syndrome there is an increase of certain systemic diseases including venous thromboembolism. An increased thromboembolic risk in hypogonadic men has been explained with hypofibrinolysis due to androgen deficiency. Only two cases have been reported about the association between Klinefelter's syndrome and well-known congenital or acquired thrombophilias. We report the case of a 39-year-old patient with Klinefelter's syndrome who underwent severe deep venous thrombosis with pulmonary embolism, in the absence of any circumstantial triggering event. Further examinations also showed a double heterozygosis for G20210A prothrombin and factor V Leiden mutations. This case suggests that the increased thromboembolic risk, reported in Klinefelter's syndrome, can be worsened by the co-existence of one or more well-known thrombophilic conditions, as shown by the relatively young age of the patient. More studies are needed to clearly understand the pathogenesis of venous thromboembolism in males affected by Klinefelter's syndrome.
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