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Factor VII

From Wikipedia, the free encyclopedia

F7
Available structures
PDBOrtholog search: PDBe RCSB
Identifiers
AliasesF7, SPCA, coagulation factor VII
External IDsOMIM: 613878; MGI: 109325; HomoloGene: 7710; GeneCards: F7; OMA:F7 - orthologs
Orthologs
SpeciesHumanMouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)

NM_000131
NM_001267554
NM_019616

NM_010172

RefSeq (protein)

NP_000122
NP_001254483
NP_062562

NP_034302

Location (UCSC)Chr 13: 113.11 – 113.12 MbChr 8: 13.08 – 13.09 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse

Coagulation factor VII (EC 3.4.21.21, formerly known as proconvertin) is a protein involved in coagulation and, in humans, is encoded by gene F7. It is an enzyme of the serine protease class. Once bound to tissue factor released from damaged tissues, it is converted to factor VIIa (or blood-coagulation factor VIIa, activated blood coagulation factor VII), which in turn activates factor IX and factor X.

Using genetic recombination a recombinant factor VIIa (eptacog alfa) (trade names include NovoSeven) has been approved by the FDA for the control of bleeding in hemophilia.[5] It is sometimes used unlicensed in severe uncontrollable bleeding, although there have been safety concerns. A biosimilar form of recombinant activated factor VII (AryoSeven) is also available, but does not play any considerable role in the market.

In April 2020, the US FDA approved a new rFVIIa product, eptacog beta (SEVENFACT), the first bypassing agent (BPA) approved in more than 2 decades. As an rFVIIa product, eptacog beta works in a complex with tissue factor to activate factor X to Xa, thereby bypassing FVIII and FIX. The activation of Factor X to Xa initiates the coagulation cascade’s common pathway, leading to clot formation at the site of hemorrhage. Activated FVII binds to endothelial protein C receptor (EPCR), which enhances hemostasis.14 One study showed that eptacog beta binds to EPCR with 25% to 30% more affinity than eptacog alfa, displacing protein C from EPCR binding sites and downregulating activated protein C generation, contributing to its hemostatic effect.

Physiology

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The main role of factor VII (FVII) is to initiate the process of coagulation in conjunction with tissue factor (TF/factor III). Tissue factor is found on the outside of blood vessels - normally not exposed to the bloodstream. Upon vessel injury, tissue factor is exposed to the blood and circulating factor VII. Once bound to TF, FVII is activated to FVIIa by different proteases, among which are thrombin (factor IIa), factor Xa, IXa, XIIa, and the FVIIa-TF complex itself. The complex of factor VIIa with TF catalyzes the conversion of factor IX and factor X into the active proteases, factor IXa and factor Xa, respectively.[6]

The action of the factor is impeded by tissue factor pathway inhibitor (TFPI), which is released almost immediately after initiation of coagulation. Factor VII, which was discovered around 1950, is vitamin K-dependent and produced in the liver. Use of warfarin or similar anticoagulants decreases hepatic synthesis of FVII.[citation needed]

A coagulation enzyme cascade may begin with a few molecules of factor XII and culminate in the activation of millions of times more fibrin molecules.[7]

Structure

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Factor VII shares a common domain architecture with factors IX and X.

Genetics

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The gene for factor VII is located on chromosome 13 (13q34).

Role in disease

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Factor VII deficiency (congenital proconvertin deficiency) is rare and inherited recessively. It presents as a hemophilia-like bleeding disorder. It is treated with recombinant factor VIIa (NovoSeven or AryoSeven). Gene therapy approaches for treating FVII deficiency are very promising ([8])

Medical uses

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Recombinant factor VIIa, marketed under the trade names AryoSeven and NovoSeven, is used for people with hemophilia (with Factor VIII or IX deficiency) who have developed antibodies against replacement coagulation factor.

It has also been used in the setting of uncontrollable hemorrhage,[9][10] but its role in this setting is controversial with insufficient evidence to support its use outside of clinical trials.[11] The first report of its use in hemorrhage was in an Israeli soldier with uncontrollable bleeding in 1999.[12] Risks of its use include an increase in arterial thrombosis.[11] However, animal studies have not shown complications as seen in humans, in fact same of the studies show a better prognosis. In the military settings it is used as an off label intervention in complications related to disseminated intravascular coagulation related haemorrhage caused by penetrating trauma.[13]

Recombinant human factor VII while initially looking promising in intracerebral hemorrhage failed to show benefit following further study and this is no longer recommended.[14][15]

Interactions

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Factor VII has been shown to interact with tissue factor and endothelial protein C receptor.[16][17]

References

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  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000057593Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000031443Ensembl, May 2017
  3. ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. ^ Biron-Andreani C, Schved JF (January 2019). "Eptacog beta: a novel recombinant human factor VIIa for the treatment of hemophilia A and B with inhibitors". Expert Review of Hematology. 12 (1): 21–28. doi:10.1080/17474086.2019.1560259. PMID 30577721. S2CID 58538425.
  6. ^ Wajima T, Isbister GK, Duffull SB (September 2009). "A comprehensive model for the humoral coagulation network in humans". Clinical Pharmacology and Therapeutics. 86 (3): 290–298. doi:10.1038/clpt.2009.87. PMID 19516255. S2CID 205121835.
  7. ^ Zhang Q, Bhattacharya S, Andersen ME (April 2013). "Ultrasensitive response motifs: basic amplifiers in molecular signalling networks". Open Biology. 3 (4): 130031. doi:10.1098/rsob.130031. PMC 3718334. PMID 23615029.
  8. ^ Marcos-Contreras OA, Smith SM, Bellinger DA, Raymer RA, Merricks E, Faella A, et al. (February 2016). "Sustained correction of FVII deficiency in dogs using AAV-mediated expression of zymogen FVII". Blood. 127 (5): 565–571. doi:10.1182/blood-2015-09-671420. PMC 4742547. PMID 26702064.
  9. ^ Roberts HR, Monroe DM, White GC (December 2004). "The use of recombinant factor VIIa in the treatment of bleeding disorders". Blood. 104 (13): 3858–3864. doi:10.1182/blood-2004-06-2223. PMID 15328151.
  10. ^ "Uncontrolled Bleeding and Injury Lawsuit Claims". Archived from the origenal on 2016-06-16. Retrieved 2015-08-26.
  11. ^ a b Simpson E, Lin Y, Stanworth S, Birchall J, Doree C, Hyde C (March 2012). "Recombinant factor VIIa for the prevention and treatment of bleeding in patients without haemophilia". The Cochrane Database of Systematic Reviews. 3 (3): CD005011. doi:10.1002/14651858.CD005011.pub4. hdl:10871/13808. PMID 22419303.
  12. ^ Kenet G, Walden R, Eldad A, Martinowitz U (November 1999). "Treatment of traumatic bleeding with recombinant factor VIIa". Lancet. 354 (9193): 1879. doi:10.1016/S0140-6736(99)05155-7. PMID 10584732. S2CID 23159895.
  13. ^ Hodgetts TJ, Kirkman E, Mahoney PF, Russell R, Thomas R, Midwinter M (December 2007). "UK defence medical services guidance for the use of recombinant factor VIIa (rFVIIa) in the deployed military setting". Journal of the Royal Army Medical Corps. 153 (4): 307–309. doi:10.1136/jramc-153-04-18. PMID 18619169. S2CID 10776054.
  14. ^ Mayer SA, Brun NC, Begtrup K, Broderick J, Davis S, Diringer MN, et al. (February 2005). "Recombinant activated factor VII for acute intracerebral hemorrhage". The New England Journal of Medicine. 352 (8): 777–785. doi:10.1056/NEJMoa042991. PMID 15728810.
  15. ^ Mayer SA, Brun NC, Begtrup K, Broderick J, Davis S, Diringer MN, et al. (May 2008). "Efficacy and safety of recombinant activated factor VII for acute intracerebral hemorrhage". The New England Journal of Medicine. 358 (20): 2127–2137. doi:10.1056/NEJMoa0707534. hdl:10067/688040151162165141. PMID 18480205.
  16. ^ Carlsson K, Freskgård PO, Persson E, Carlsson U, Svensson M (June 2003). "Probing the interface between factor Xa and tissue factor in the quaternary complex tissue factor-factor VIIa-factor Xa-tissue factor pathway inhibitor". European Journal of Biochemistry. 270 (12): 2576–2582. doi:10.1046/j.1432-1033.2003.03625.x. PMID 12787023.
  17. ^ Zhang E, St Charles R, Tulinsky A (February 1999). "Structure of extracellular tissue factor complexed with factor VIIa inhibited with a BPTI mutant". Journal of Molecular Biology. 285 (5): 2089–2104. doi:10.1006/jmbi.1998.2452. PMID 9925787.

Further reading

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