Formation of Fibrin Clot and the Clotting Cascade (Homo sapiens)

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23, 655, 8, 47, 61, 7430, 45, 51, 8240, 6711, 19, 703513, 29, 34, 8717, 21, 70833, 28, 62, 71, 76...533, 41, 76, 9012, 32, 7343, 64, 82, 91264, 7, 42, 58619, 54674921691657, 73, 778339, 6618, 25, 37, 38, 46...2618, 43, 60, 726731, 42, 48, 78261027, 57265549, 55895575factor XIGPIb-IX-V complex factor Va factor VIIIafactor IXa Plasma kallikrein factor VIIIa C1q binding protein tetramer factor XIIIa GPIb-IX-V complex Plasma kallikrein factor XIIa activated thrombin factor Xa activated kininogen GPIb KNGC1q binding protein tetramer Plasma kallikrein factor XI Activated thrombin TFPITFF7afactor Xa factor XIII prolylcarboxypeptidase dimer protein C KNGC1q binding protein tetramer cleaved antithrombin III factor VIIa factor Xa factor XI VaXa complex TFF7a antithrombin IIIheparin cytoplasmfactor Xa GPIb GPIb-IX-V complex activated thrombin factor Va kallikreinalpha2-macroglobulin GPIb activated kininogenC1q binding protein tetramer thrombincleaved antithrombin III factor VIIIa factor XIIa Alpha2-macroglobulin kallikrein factor IXa factor XIIaC1Inh factor VIII fibrin monomer factor VIIIvon Willebrand factor multimer Activated thrombin factor Vi fibrin multimer activated protein C thrombincleaved antithrombin IIIheparin TFF7a C1q binding protein tetramer factor VIIa activated protein C activated thrombin factor X Alpha2-macroglobulin KNGC1q binding protein tetramer thrombinantithrombin IIIheparin factor XIa kallikreinkininogenC1q binding protein tetramer prekallikreinkininogenC1q binding protein tetramer activated thrombinthrombomodulin C1q binding protein tetramer factor IXa GPIb-IX-V complex TFF7 Fibrinogen factor Xa kallikreinC1Inh C1q binding protein tetramer factor VIIa factor VIII fibrin monomer factor XIaGPIbGPIXGPV complex von Willibrand factor multimer factor XIII cleaved tetramer cleaved antithrombin III C1q binding protein tetramer KLKB1factor XIIa heavy chain GP5 TFPIthrombin light chain VWFactivated thrombinthrombomodulinfactor X activation peptidefactor Va heavy chain SERPINC1C1QBP factor XIIa light chain thrombin heavy chain F13BFGB 11xCbxE-3D-F10PROCCa2+ PROCC1QBP FGAthrombincleaved antithrombin IIIheparinGPIb-IX-V complexKLKB1Ca2+ prekallikreinkininogenC1q binding protein tetramerCa2+SERPINC1 factor IXaKLKB1KLKB1factor Xa heavy chain KLKB1factor Va light chain factor XIaGPIbGPIXGPV complexfactor VIIIa B A3 acidic polypeptideC1q binding protein tetramerfactor XIII A chain 8xCbxE-3D-PROCAlpha2-macroglobulinfactor IX activation peptidefactor V activation peptide10xCbxE-F7factor VIII light chain FGG factor XI monomer KLKB1PalmC-F3 C1QBP FGBGP1BB TFPI C1QBP Ca2+ C1QBP factor Vfactor Va light chain PROCFGB factor VIII light chain Ca2+ 11xCbxE-3D-F10factor ViGP9 GP5 FGB10xCbxE-F2TFF7factor Xa heavy chain SERPINC1activated protein CPalmC-F3 11xCbxE-3D-F9Ca2+ Ca2+ TFPITFF7afactor Xa12xCbxE-3D-F9PalmC-F3 factor VIIa heavy chain fibrin multimer, crosslinkedCa2+GP1BA Ca2+ VWFKLKB1factor VIIIaFibrinogenA2M F13B factor XIIIa A chain factor XI monomer factor XIa light chain 11xCbxE-3D-F10factor VIII heavy chain thrombin heavy chain KNGC1q binding protein tetramerGP9 8xCbxE-3D-PROCfactor VIIIfactor XIIa heavy chain F13B kallikreinalpha2-macroglobulinHeparinCa2+ SERPINC1 thrombin light chain factor IXa heavy chain thrombin heavy chain 10xCbxE-F7factor VIIIa A1 polypeptide KNG1factor XIII10xCbxE-F7SERPING1GP5 activated kininogenC1q binding protein tetramerKLKB1factor Xprolylcarboxypeptidase dimerCa2+ KLKB1factor VIIIa A3 C1 C2 polypeptide factor VIIIa A1 polypeptide FGA factor X heavy chain KLKB111xCbxE-PROS1protein Cthrombinantithrombin IIIheparinvon Willibrand factor multimerfactor Xa heavy chain factor VIIa heavy chain KNG110xCbxE-F7antithrombin IIIheparinCa2+ BradykininVaXa complex THBD Ca2+ kallikreinkininogenC1q binding protein tetramerfactor XIa heavy chain factor XIIafibrin multimerKNG1factor XIGPIb-IX-V complexfactor XaKNG1factor VIIa heavy chain factor XIIActivated thrombin Zn2+GP9 FGA11xCbxE-3D-F10thrombin heavy chain FGG factor VIIIa A2 polypeptide SERPINC1Ca2+ NH4+8xCbxE-3D-PROCGP1BA Ca2+Platelet Factor 4factor XIII A chain activation peptidefactor XIIIafactor Xafactor IXa heavy chain factor VIIIa A2 polypeptide 11xCbxE-3D-F10factor XIIIa A chain thrombin light chain FGG sequestered tissue factorfactor Xa heavy chain GP1BB factor VIIIa A3 C1 C2 polypeptide Ca2+ A2M activated protein Cfibrin monomerthrombincleaved antithrombin IIISERPING1 SERPING1 factor VIII heavy chain factor Va light chain SERPINC1GP1BA thrombin heavy chain TFF7athrombin light chain kallikreinC1InhPRCP factor Vathrombin light chain Ca2+10xCbxE-F7factor Va heavy chain KNG1PalmC-F310xCbxE-F2PROCfactor XIIa light chain Ca2+ KNG1SERPINC1Plasma kallikreinfactor VIIIafactor IXaCa2+ THBDKNG1factor XIII cleaved tetramerfactor XIGP1BB factor VIIaFGA factor VIIIvon Willebrand factor multimerfactor XIIaC1Inh12xCbxE-3D-F91, 849, 631, 846785, 862, 362, 36868020, 22, 332, 369, 6320, 22, 334481, 882, 361, 8415, 8849561485, 869, 40, 6320, 22, 3350, 599, 631, 842, 3650, 5981, 8885, 8649, 505914809, 40, 63249, 63, 8581, 889, 40, 6381, 881, 8450, 599, 63, 855020, 22, 3386501, 842420, 22, 3315, 81, 889, 631, 841, 849, 63, 858049, 501, 8450, 5986832483


Description

The formation of a fibrin clot at the site of an injury to the wall of a normal blood vessel is an essential part of the process to stop blood loss after vascular injury. The reactions that lead to fibrin clot formation are commonly described as a cascade, in which the product of each step is an enzyme or cofactor needed for following reactions to proceed efficiently. The entire clotting cascade can be divided into three portions, the extrinsic pathway, the intrinsic pathway, and the common pathway. The extrinsic pathway begins with the release of tissue factor at the site of vascular injury and leads to the activation of factor X. The intrinsic pathway provides an alternative mechanism for activation of factor X, starting from the activation of factor XII. The common pathway consists of the steps linking the activation of factor X to the formation of a multimeric, cross-linked fibrin clot. Each of these pathways includes not only a cascade of events that generate the catalytic activities needed for clot formation, but also numerous positive and negative regulatory events. Original Pathway at Reactome: http://www.reactome.org/PathwayBrowser/#DB=gk_current&FOCUS_SPECIES_ID=48887&FOCUS_PATHWAY_ID=140877

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  110. Moreira CR, Schmaier AH, Mahdi F, da Motta G, Nader HB, Shariat-Madar Z.; ''Identification of prolylcarboxypeptidase as the cell matrix-associated prekallikrein activator.''; PubMed Europe PMC Scholia
  111. Thim L, Bjoern S, Christensen M, Nicolaisen EM, Lund-Hansen T, Pedersen AH, Hedner U.; ''Amino acid sequence and posttranslational modifications of human factor VIIa from plasma and transfected baby hamster kidney cells.''; PubMed Europe PMC Scholia
  112. Baglia FA, Badellino KO, Li CQ, Lopez JA, Walsh PN.; ''Factor XI binding to the platelet glycoprotein Ib-IX-V complex promotes factor XI activation by thrombin.''; PubMed Europe PMC Scholia
  113. Bondarenko M, Curti C, Montana M, Rathelot P, Vanelle P.; ''Efficacy and toxicity of factor Xa inhibitors.''; PubMed Europe PMC Scholia
  114. Joseph K, Shibayama Y, Ghebrehiwet B, Kaplan AP.; ''Factor XII-dependent contact activation on endothelial cells and binding proteins gC1qR and cytokeratin 1.''; PubMed Europe PMC Scholia
  115. Titani K, Kumar S, Takio K, Ericsson LH, Wade RD, Ashida K, Walsh KA, Chopek MW, Sadler JE, Fujikawa K.; ''Amino acid sequence of human von Willebrand factor.''; PubMed Europe PMC Scholia
  116. Silverberg M, Dunn JT, Garen L, Kaplan AP.; ''Autoactivation of human Hageman factor. Demonstration utilizing a synthetic substrate.''; PubMed Europe PMC Scholia
  117. Li W, Huntington JA.; ''Crystal structures of protease nexin-1 in complex with heparin and thrombin suggest a 2-step recognition mechanism.''; PubMed Europe PMC Scholia
  118. Fay PJ, Smudzin TM.; ''Characterization of the interaction between the A2 subunit and A1/A3-C1-C2 dimer in human factor VIIIa.''; PubMed Europe PMC Scholia
  119. Mahdi F, Madar ZS, Figueroa CD, Schmaier AH.; ''Factor XII interacts with the multiprotein assembly of urokinase plasminogen activator receptor, gC1qR, and cytokeratin 1 on endothelial cell membranes.''; PubMed Europe PMC Scholia
  120. Griffin JH, Cochrane CG.; ''Mechanisms for the involvement of high molecular weight kininogen in surface-dependent reactions of Hageman factor.''; PubMed Europe PMC Scholia
  121. Taylor FB, Peer GT, Lockhart MS, Ferrell G, Esmon CT.; ''Endothelial cell protein C receptor plays an important role in protein C activation in vivo.''; PubMed Europe PMC Scholia
  122. Broze GJ, Girard TJ, Novotny WF.; ''Regulation of coagulation by a multivalent Kunitz-type inhibitor.''; PubMed Europe PMC Scholia
  123. Tan F, Morris PW, Skidgel RA, Erdös EG.; ''Sequencing and cloning of human prolylcarboxypeptidase (angiotensinase C). Similarity to both serine carboxypeptidase and prolylendopeptidase families.''; PubMed Europe PMC Scholia
  124. Davie EW, Fujikawa K, Kisiel W.; ''The coagulation cascade: initiation, maintenance, and regulation.''; PubMed Europe PMC Scholia
  125. Rapaport SI, Rao LV.; ''The tissue factor pathway: how it has become a "prima ballerina".''; PubMed Europe PMC Scholia
  126. Church FC, Noyes CM, Griffith MJ.; ''Inhibition of chymotrypsin by heparin cofactor II.''; PubMed Europe PMC Scholia
  127. Lewis SD, Janus TJ, Lorand L, Shafer JA.; ''Regulation of formation of factor XIIIa by its fibrin substrates.''; PubMed Europe PMC Scholia
  128. Weitz JI, Hudoba M, Massel D, Maraganore J, Hirsh J.; ''Clot-bound thrombin is protected from inhibition by heparin-antithrombin III but is susceptible to inactivation by antithrombin III-independent inhibitors.''; PubMed Europe PMC Scholia
  129. Pan S, Iannotti MJ, Sifers RN.; ''Analysis of serpin secretion, misfolding, and surveillance in the endoplasmic reticulum.''; PubMed Europe PMC Scholia
  130. Nemerson Y.; ''Tissue factor and hemostasis.''; PubMed Europe PMC Scholia
  131. Yegneswaran S, Smirnov MD, Safa O, Esmon NL, Esmon CT, Johnson AE.; ''Relocating the active site of activated protein C eliminates the need for its protein S cofactor. A fluorescence resonance energy transfer study.''; PubMed Europe PMC Scholia
  132. Pipe SW, Eickhorst AN, McKinley SH, Saenko EL, Kaufman RJ.; ''Mild hemophilia A caused by increased rate of factor VIII A2 subunit dissociation: evidence for nonproteolytic inactivation of factor VIIIa in vivo.''; PubMed Europe PMC Scholia
  133. Rosing J, Hoekema L, Nicolaes GA, Thomassen MC, Hemker HC, Varadi K, Schwarz HP, Tans G.; ''Effects of protein S and factor Xa on peptide bond cleavages during inactivation of factor Va and factor VaR506Q by activated protein C.''; PubMed Europe PMC Scholia
  134. Di Scipio RG, Hermodson MA, Davie EW.; ''Activation of human factor X (Stuart factor) by a protease from Russell's viper venom.''; PubMed Europe PMC Scholia
  135. Hoeben RC, Fallaux FJ, Cramer SJ, van den Wollenberg DJ, van Ormondt H, Briët E, van der Eb AJ.; ''Expression of the blood-clotting factor-VIII cDNA is repressed by a transcriptional silencer located in its coding region.''; PubMed Europe PMC Scholia
  136. Gilbert GE, Furie BC, Furie B.; ''Binding of human factor VIII to phospholipid vesicles.''; PubMed Europe PMC Scholia
  137. Schmaier AH.; ''The physiologic basis of assembly and activation of the plasma kallikrein/kinin system.''; PubMed Europe PMC Scholia
  138. Kellermann J, Lottspeich F, Henschen A, Müller-Esterl W.; ''Completion of the primary structure of human high-molecular-mass kininogen. The amino acid sequence of the entire heavy chain and evidence for its evolution by gene triplication.''; PubMed Europe PMC Scholia
  139. Wienen W, Stassen JM, Priepke H, Ries UJ, Hauel N.; ''In-vitro profile and ex-vivo anticoagulant activity of the direct thrombin inhibitor dabigatran and its orally active prodrug, dabigatran etexilate.''; PubMed Europe PMC Scholia
  140. Butkowski RJ, Elion J, Downing MR, Mann KG.; ''Primary structure of human prethrombin 2 and alpha-thrombin.''; PubMed Europe PMC Scholia
  141. Shariat-Madar Z, Mahdi F, Schmaier AH.; ''Recombinant prolylcarboxypeptidase activates plasma prekallikrein.''; PubMed Europe PMC Scholia
  142. Greengard JS, Heeb MJ, Ersdal E, Walsh PN, Griffin JH.; ''Binding of coagulation factor XI to washed human platelets.''; PubMed Europe PMC Scholia
  143. Holmer E, Söderberg K, Bergqvist D, Lindahl U.; ''Heparin and its low molecular weight derivatives: anticoagulant and antithrombotic properties.''; PubMed Europe PMC Scholia
  144. Kurosawa S, Esmon CT, Stearns-Kurosawa DJ.; ''The soluble endothelial protein C receptor binds to activated neutrophils: involvement of proteinase-3 and CD11b/CD18.''; PubMed Europe PMC Scholia
  145. Kurachi K, Kurachi S, Furukawa M, Yao SN.; ''Biology of factor IX.''; PubMed Europe PMC Scholia

History

View all...
CompareRevisionActionTimeUserComment
123618view08:20, 7 August 2022EgonwModified title
114744view16:23, 25 January 2021ReactomeTeamReactome version 75
113188view11:25, 2 November 2020ReactomeTeamReactome version 74
112416view15:35, 9 October 2020ReactomeTeamReactome version 73
101320view11:21, 1 November 2018ReactomeTeamreactome version 66
100857view20:53, 31 October 2018ReactomeTeamreactome version 65
100398view19:27, 31 October 2018ReactomeTeamreactome version 64
99946view16:11, 31 October 2018ReactomeTeamreactome version 63
99502view14:44, 31 October 2018ReactomeTeamreactome version 62 (2nd attempt)
94025view13:52, 16 August 2017ReactomeTeamreactome version 61
93645view11:29, 9 August 2017ReactomeTeamreactome version 61
87449view13:55, 22 July 2016MkutmonOntology Term : 'coagulation cascade pathway' added !
86761view09:25, 11 July 2016ReactomeTeamreactome version 56
83143view10:09, 18 November 2015ReactomeTeamVersion54
81490view13:01, 21 August 2015ReactomeTeamVersion53
76965view08:24, 17 July 2014ReactomeTeamFixed remaining interactions
76670view12:03, 16 July 2014ReactomeTeamFixed remaining interactions
75999view10:05, 11 June 2014ReactomeTeamRe-fixing comment source
75702view11:04, 10 June 2014ReactomeTeamReactome 48 Update
75538view19:27, 9 June 2014MaintBotchanged description source
75512view12:25, 5 June 2014AnweshaUpdated in Reactome48
75058view13:56, 8 May 2014AnweshaFixing comment source for displaying WikiPathways description
74702view08:46, 30 April 2014ReactomeTeamReactome46
73650view00:25, 12 February 2014AriuttaRemoved GroupRef="group_comp_1316" because there is no Group with GroupId="group_comp_1316"
73634view20:28, 10 February 2014KhanspersReverted to version '20:24, 8 February 2014' by Khanspers
73633view20:24, 10 February 2014Khanspersremoved cell shape
73632view20:22, 10 February 2014Khanspersremoved all groups to possibly resolve crash
73624view20:24, 8 February 2014MaintBotTrying out new gpml conversion to resolve crash of new pvjs viewer
69011view17:46, 8 July 2013MaintBotUpdated to 2013 gpml schema
42041view21:52, 4 March 2011MaintBotAutomatic update
39844view05:52, 21 January 2011MaintBotNew pathway

External references

DataNodes

View all...
NameTypeDatabase referenceComment
10xCbxE-F2ProteinP00734 (Uniprot-TrEMBL)
10xCbxE-F7ProteinP08709 (Uniprot-TrEMBL)
11xCbxE-3D-F10ProteinP00742 (Uniprot-TrEMBL)
11xCbxE-3D-F9ProteinP00740 (Uniprot-TrEMBL)
11xCbxE-PROS1ProteinP07225 (Uniprot-TrEMBL)
12xCbxE-3D-F9ProteinP00740 (Uniprot-TrEMBL)
8xCbxE-3D-PROCProteinP04070 (Uniprot-TrEMBL)
A2M ProteinP01023 (Uniprot-TrEMBL)
Activated thrombin ComplexREACT_3298 (Reactome)
Alpha2-macroglobulinComplexREACT_3449 (Reactome)
BradykininProteinP01042 (Uniprot-TrEMBL)
C1QBP ProteinQ07021 (Uniprot-TrEMBL)
C1q binding protein tetramerComplexREACT_2937 (Reactome)
Ca2+ MetaboliteCHEBI:29108 (ChEBI)
Ca2+MetaboliteCHEBI:29108 (ChEBI)
F13B ProteinP05160 (Uniprot-TrEMBL)
F13BProteinP05160 (Uniprot-TrEMBL)
FGA ProteinP02671 (Uniprot-TrEMBL)
FGAProteinP02671 (Uniprot-TrEMBL)
FGB ProteinP02675 (Uniprot-TrEMBL)
FGBProteinP02675 (Uniprot-TrEMBL)
FGG ProteinP02679 (Uniprot-TrEMBL)
FibrinogenComplexREACT_4095 (Reactome) Fibrinogen is a hexamer, containing two fibrinogen alpha chains, two fibrinogen beta chains, and two fibrinogen gamma chains, held together by disulfide bonds.
GP1BA ProteinP07359 (Uniprot-TrEMBL)
GP1BB ProteinP13224 (Uniprot-TrEMBL)
GP5 ProteinP40197 (Uniprot-TrEMBL)
GP9 ProteinP14770 (Uniprot-TrEMBL)
GPIb-IX-V complexComplexREACT_3007 (Reactome)
HeparinREACT_4737 (Reactome)
KLKB1ProteinP03952 (Uniprot-TrEMBL)
KNG C1q binding protein tetramerComplexREACT_4804 (Reactome)
KNG1ProteinP01042 (Uniprot-TrEMBL)
NH4+MetaboliteCHEBI:28938 (ChEBI)
PRCP ProteinP42785 (Uniprot-TrEMBL)
PROCProteinP04070 (Uniprot-TrEMBL)
PalmC-F3 ProteinP13726 (Uniprot-TrEMBL)
PalmC-F3ProteinP13726 (Uniprot-TrEMBL)
Plasma kallikreinComplexREACT_4124 (Reactome)
Platelet Factor 4REACT_12205 (Reactome)
SERPINC1 ProteinP01008 (Uniprot-TrEMBL)
SERPINC1ProteinP01008 (Uniprot-TrEMBL)
SERPING1 ProteinP05155 (Uniprot-TrEMBL)
SERPING1ProteinP05155 (Uniprot-TrEMBL)
TF F7ComplexREACT_4908 (Reactome)
TF F7aComplexREACT_4532 (Reactome)
TFPI

TF F7a

factor Xa		ComplexREACT_2685 (Reactome)
TFPI ProteinP10646 (Uniprot-TrEMBL)
TFPIProteinP10646 (Uniprot-TrEMBL)
THBD ProteinP07204 (Uniprot-TrEMBL)
THBDProteinP07204 (Uniprot-TrEMBL)
VWFProteinP04275 (Uniprot-TrEMBL)
Va Xa complex ComplexREACT_5441 (Reactome)
Zn2+MetaboliteCHEBI:29105 (ChEBI)
activated kininogen C1q binding protein tetramerComplexREACT_3121 (Reactome)
activated protein CComplexREACT_2599 (Reactome)
activated protein CComplexREACT_5044 (Reactome)
activated thrombin thrombomodulinComplexREACT_5904 (Reactome)
antithrombin III heparinComplexREACT_2653 (Reactome)
factor IX activation peptideProteinP00740 (Uniprot-TrEMBL)
factor IXa heavy chain ProteinP00740 (Uniprot-TrEMBL)
factor IXaComplexREACT_3075 (Reactome)
factor V activation peptideProteinP12259 (Uniprot-TrEMBL)
factor VIII von Willebrand factor multimerComplexREACT_3248 (Reactome)
factor VIII heavy chain ProteinP00451 (Uniprot-TrEMBL)
factor VIII light chain ProteinP00451 (Uniprot-TrEMBL)
factor VIIIComplexREACT_4493 (Reactome)
factor VIIIa factor IXaComplexREACT_3217 (Reactome)
factor VIIIa A1 polypeptide ProteinP00451 (Uniprot-TrEMBL)
factor VIIIa A2 polypeptide ProteinP00451 (Uniprot-TrEMBL)
factor VIIIa A3 C1 C2 polypeptide ProteinP00451 (Uniprot-TrEMBL)
factor VIIIa B A3 acidic polypeptideProteinP00451 (Uniprot-TrEMBL)
factor VIIIaComplexREACT_4190 (Reactome)
factor VIIa heavy chain ProteinP08709 (Uniprot-TrEMBL)
factor VIIaComplexREACT_2419 (Reactome)
factor VProteinP12259 (Uniprot-TrEMBL)
factor Va heavy chain ProteinP12259 (Uniprot-TrEMBL)
factor Va light chain ProteinP12259 (Uniprot-TrEMBL)
factor VaComplexREACT_2497 (Reactome)
factor ViComplexREACT_4020 (Reactome)
factor X activation peptideProteinP00742 (Uniprot-TrEMBL)
factor X heavy chain ProteinP00742 (Uniprot-TrEMBL)
factor XI GPIb-IX-V complexComplexREACT_5726 (Reactome)
factor XI monomer ProteinP03951 (Uniprot-TrEMBL)
factor XIII A chain ProteinP00488 (Uniprot-TrEMBL)
factor XIII A chain activation peptideProteinP00488 (Uniprot-TrEMBL)
factor XIII cleaved tetramerComplexREACT_2648 (Reactome)
factor XIIIComplexREACT_4285 (Reactome)
factor XIIIa A chain ProteinP00488 (Uniprot-TrEMBL)
factor XIIIaComplexREACT_4387 (Reactome)
factor XIIProteinP00748 (Uniprot-TrEMBL)
factor XIIa C1InhComplexREACT_2283 (Reactome)
factor XIIa heavy chain ProteinP00748 (Uniprot-TrEMBL)
factor XIIa light chain ProteinP00748 (Uniprot-TrEMBL)
factor XIIaComplexREACT_4236 (Reactome)
factor XIComplexREACT_4915 (Reactome)
factor XIa

GPIb GPIX

GPV complex		ComplexREACT_4765 (Reactome)
factor XIa heavy chain ProteinP03951 (Uniprot-TrEMBL)
factor XIa light chain ProteinP03951 (Uniprot-TrEMBL)
factor XComplexREACT_3749 (Reactome)
factor Xa heavy chain ProteinP00742 (Uniprot-TrEMBL)
factor XaComplexREACT_3099 (Reactome)
factor XaComplexREACT_5349 (Reactome)
fibrin monomerComplexREACT_5594 (Reactome) Fibrin is a hexamer of two fibrinogen alpha chains, two fibrinogen beta chains, and two fibrinogen gamma chains, held together by disulfide bonds. It is formed in vivo by the thrombin-catalyzed removal of amino terminal fibinopeptides from the A alpha and B beta chains of fibrinogen. This fibrin hexamer ("fibrin monomer") is the subunit that multimerizes to form a fibrin clot ("fibrin multimer").
fibrin multimer, crosslinkedREACT_2721 (Reactome)
fibrin multimerComplexREACT_4444 (Reactome) The fibrin "monomers" formed by the action of thrombin on fibrinogen associate spontaneously into multimers. This association can follow several distinct pathways and may be able to form several types of higher-order structures. All of these possibilities are represented in Reactome as a fibrin trimer.
kallikrein C1InhComplexREACT_5874 (Reactome)
kallikrein alpha2-macroglobulinComplexREACT_4115 (Reactome)
kallikrein

kininogen

C1q binding protein tetramer		ComplexREACT_4714 (Reactome)
prekallikrein

kininogen

C1q binding protein tetramer		ComplexREACT_3461 (Reactome)
prolylcarboxypeptidase dimerComplexREACT_5699 (Reactome)
protein CComplexREACT_4912 (Reactome)
sequestered tissue factorProteinP13726 (Uniprot-TrEMBL)
thrombin

antithrombin III

heparin		ComplexREACT_2423 (Reactome)
thrombin

cleaved antithrombin III

heparin		ComplexREACT_2621 (Reactome)
thrombin cleaved antithrombin IIIComplexREACT_4175 (Reactome)
thrombin heavy chain ProteinP00734 (Uniprot-TrEMBL)
thrombin light chain ProteinP00734 (Uniprot-TrEMBL)
von Willibrand factor multimerComplexREACT_5706 (Reactome)

Annotated Interactions

View all...
SourceTargetTypeDatabase referenceComment
10xCbxE-F2ArrowREACT_1097 (Reactome)
10xCbxE-F2ArrowREACT_1446 (Reactome)
10xCbxE-F7REACT_1669 (Reactome)
11xCbxE-PROS1ArrowREACT_1071 (Reactome)
Activated thrombin ArrowREACT_1097 (Reactome)
Activated thrombin ArrowREACT_1446 (Reactome)
Activated thrombin REACT_1822 (Reactome)
Activated thrombin REACT_1834 (Reactome)
Activated thrombin mim-catalysisREACT_1536 (Reactome)
Activated thrombin mim-catalysisREACT_1581 (Reactome)
Activated thrombin mim-catalysisREACT_214 (Reactome)
Activated thrombin mim-catalysisREACT_217 (Reactome)
Activated thrombin mim-catalysisREACT_708 (Reactome)
Alpha2-macroglobulinREACT_25 (Reactome)
BradykininArrowREACT_2004 (Reactome)
C1q binding protein tetramerREACT_2239 (Reactome)
Ca2+ArrowREACT_112 (Reactome)
Ca2+ArrowREACT_2073 (Reactome)
Ca2+REACT_1314 (Reactome)
Ca2+REACT_1668 (Reactome)
Ca2+REACT_245 (Reactome)
F13BArrowREACT_1314 (Reactome)
FGAArrowREACT_214 (Reactome)
FGBArrowREACT_214 (Reactome)
GPIb-IX-V complexREACT_177 (Reactome)
HeparinArrowREACT_1283 (Reactome)
HeparinREACT_102 (Reactome)
KLKB1REACT_1335 (Reactome)
KNG C1q binding protein tetramerREACT_1335 (Reactome)
KNG1ArrowREACT_1455 (Reactome)
KNG1REACT_2239 (Reactome)
NH4+ArrowREACT_1852 (Reactome)
PROCArrowREACT_374 (Reactome)
PalmC-F3REACT_137 (Reactome)
PalmC-F3REACT_1669 (Reactome)
Plasma kallikreinArrowREACT_2004 (Reactome)
Plasma kallikreinREACT_1486 (Reactome)
Plasma kallikreinREACT_25 (Reactome)
Platelet Factor 4ArrowREACT_374 (Reactome)
REACT_102 (Reactome) Antithrombin III binds to membrane-associated heparin, e.g., on the surface of a normal endothelial cell. This binding event increases the affinity of antithrombin III for thrombin approximately 1000-fold.
REACT_1071 (Reactome) Activated protein C cleaves peptide bonds in activated factor V (factor Va), converting it to an inactive form (factor Vi). The exact site(s) of cleavage are unknown. Protein S, on the endothelial cell surface, positively regulates this reaction. Although the mechanism of this regulation is unclear, the regulation is physiologically important, as people with reduced amounts of protein S, like people with reduced amounts of protein C, are susceptible to thromboembolism.
REACT_1097 (Reactome) Membrane-bound factor Xa catalyzes the activation of small amounts of thrombin. The amino terminal portion of prothrombin is released as an activation peptide, which can be cleaved further by activated thrombin. Neither the full-length activation peptide nor its cleavage products have known functions.
REACT_112 (Reactome) The activated forms of factors VIII and IX associate on a cell surface to form a complex that very efficiently catalyzes the activation of factor X, the so-called "intrinsic tenase complex". In vitro, negatively charged phospholipids can provide an appropriate surface. In the body, the surface is provided by the plasma membranes of activated platelets (Gilbert and Arena 1996).
REACT_1283 (Reactome) The same conformational change that traps thrombin in its complex with cleaved antithrombin III also decreases the affinity of the latter for heparin, and the complex of cleaved antithrombin III and thrombin dissociates from the cell-bound heparin molecule.
REACT_1314 (Reactome) Once the A chains of the Factor XIII tetramer have been cleaved by thrombin, the complex dissociates and the resulting A chain dimer binds Ca++ (one per peptide monomer) to form activated factor XIII (factor XIIIa).
REACT_1329 (Reactome) Fibrin monomers rapidly and spontaneously associate into large multimers, binding to one another via sites created by fibrinopeptide release (Laudano and Doolittelle 1980). The process of multimerization, and the range of multimer structures that can form in vivo and in vitro, have been studied in detail (Doolittle 1984). Here, multimer size has arbitrarily been set to three fibrin monomers.
REACT_1335 (Reactome) Prekallikrein (PK) associates specifically with kininogen (HK) on cell surfaces. In vivo, this reaction may occur primarily on the surfaces of endothelial cells in response to platelet activation (Lin et al. 1997; Motta et al. 1998; Mahdi et al. 2003).
REACT_137 (Reactome) Tissue factor exposed at the endothelial cell surface forms a complex with F7a (activated factor VII) from the plasma
REACT_1446 (Reactome) The membrane-bound Va:Xa (prothrombinase) complex rapidly activates large amounts of thrombin.
REACT_1455 (Reactome) Cleavage of a single peptide bond converts factor XII to activated factor XII (factor XIIa) (Fujikawa and McMullen 1983; McMullen and Fujikawa 1985). Identification of the catalytic activity or activities responsible for this cleavage has not been straightforward. Studies in vitro have demonstrated the autoactivation of factor XII as well as activation by kallikrein. Both reactions require the presence of negatively charged surfaces and are accelerated in the presence of kininogen (high molecular weight kininogen, HK) (Griffin and Cochrane 1976; Meier et al. 1977; Silverberg et al. 1980). Recent work suggests that factor XII activation in vivo may occur primarily on endothelial cell surfaces and that, as in vitro, association with kininogen may accelerate the reaction (Mahdi et al. 2002; Schmaier 2004), although alternative pathways and alternative mechanisms for associating factor XII with the cell surface have not been excluded (Joseph et al. 2001).
REACT_1486 (Reactome) Activated kallikrein binds to C1Inh (plasma protease C1 inhibitor) (Bock et al. 1986), forming a stable and enzymatically inactive complex. This reaction appears to be the major means by which kallikrein is inactivated (kallikrein can also be inactivated by binding to alpha2-macroglobulin) (Harpel et al. 1985; Ratnoff et al. 1969).
REACT_1500 (Reactome) Antithrombin III in the complex is cleaved by thrombin, thereupon undergoing a conformational change that stabilizes the thrombin:antithrombin III complex, trapping and inactivating the thrombin moiety.
REACT_1536 (Reactome) Activated thrombin cleaves the A chains of factor XIII tetramers in a reaction stimulated by the presence of fibrin multimers. The amino terminal portions of the A chains are released as activation peptides, which have no known function. The resulting factor XIII tetramer remains catalytically inactive.
REACT_1581 (Reactome) Factor XI, bound to the cell surface, is converted to activated factor XI (factor XIa). In the body, this reaction occurs on the surfaces of activated platelets (Baglia et al. 2002). Small quantities of factor XI can be activated in a reaction catalyzed by factor XIIa, to initiate formation of a fibrin clot. However, the efficient activation of larger quantities of factor XI, needed to propagate the blood clotting process, appears to be mediated by thrombin (Baglia and Walsh 2000; Gailani and Broze 1993; Naito and Fujikawa 1991; Oliver et al. 1999; Monroe et al. 2002).
REACT_158 (Reactome) Factor VIIa, bound to tissue factor at the endothelial cell surface, catalyzes the formation of activated factor IX with high efficiency. The amino terminal part of the heavy chain of factor IX, the factor IX activation peptide, is released. (This peptide has no known function.)
REACT_1596 (Reactome) Tissue factor sequestered in the wall of a blood vessel is exposed to circulating blood when the endothelial lining of the vessel is injured.
REACT_1668 (Reactome) Factor IXa, in a complex with factor VIIIa on the surfaces of activated platelets (the "intrinsic tenase complex"), catalyzes the formation of activated factor X with high efficiency. The amino terminal part of the heavy chain of factor X, the factor X activation peptide, is released. (This peptide has no known function.)
REACT_1669 (Reactome) Tissue factor exposed at the endothelial cell surface forms a complex with factor VII from plasma.
REACT_177 (Reactome) Plasma factor XI binds to the platelet glycoprotein Ib:IX:V complex (Baglia et al. 2002; Greengard et al. 1986). In the body, this reaction occurs specifically on the surfaces of activated platelets, but not on endothelial cells (Baird and Walsh 2002). The stoichiometry of the platelet glycoprotein Ib:IX:V complex has not been established directly, but is inferred from the relative abundances of its components in platelet membranes (Modderman et al. 1992; Shrimpton et al. 2002).
REACT_1822 (Reactome) Activated thrombin binds to the antithrombin III:heparin complex on the cell surface.
REACT_1834 (Reactome) Activated thrombin (factor IIa) binds to thrombomodulin at the external face of the plasma membrane, forming a thrombin:thrombomodulin complex. In this complexed form, the activity of thrombin towards protein C is greatly increased, and as thrombomodulin is particularly abundant on the surfaces of endothelial cells, this association plays a major role in restricting clot formation.
REACT_1852 (Reactome) Fibrin multimers are stabilized by the formation of multiple covalent crosslinks between the side chains of specific lysine and glutamine residues in fibrinogen alpha and gamma chains, catalyzed by factor XIIIa.
REACT_2004 (Reactome) The cleavage of kininogen (HK, high molecular weight kininogen) yields activated kininogen and the vasoactive peptide bradykinin (Kerbirou and Griffin 1979; Lottspeich et al. 1985; Kellerman et al. 1986). In vivo, this reaction is catalyzed by activated kallikrein, takes places within the kallikrein:kininogen:C1q binding protein tetramer complex on the endothelial cell surface, and results in the release of kallikrein and bradykinin (Motta et al. 1998). The hormonal functions of bradykinin will be annotated in a future version of Reactome.
REACT_2073 (Reactome) Factor XIa, bound to platelet glycoprotein (GP) Ib:IX:V on the platelet cell surface, catalyzes the formation of activated factor IX with high efficiency in a reaction that requires Ca++. The amino terminal part of the heavy chain of factor IX, the factor IX activation peptide, is released. (This peptide has no known function.)
REACT_214 (Reactome) The alpha and beta chains of fibrinogen hexamer are cleaved by thrombin to generate fibrin monomer. The amino terminal regions of the cleaved alpha and beta chains are released (fibrinopeptides A and B respectively).
REACT_217 (Reactome) Factor VIII complexed to von Willibrand factor in the blood is cleaved into several smaller polypeptides that remain associated. The acidic polypeptide on the aminoterminal side of the A3 domain of the light chain is released, however, and as this polypeptide mediates the association of factor VIII with von Willibrand factor, the activated factor VIII is released. While several proteases are capable of catalyzing these cleavages in vitro, only thrombin is active on factor VIII:von Willibrand factor complexes under physiological conditions (Eaton et al. 1986; Hill-Eubanks et al. 1989; Lollar et al. 1988; Pieters et al. 1989)
REACT_2239 (Reactome) Kininogen (high molecular weight kininogen; HK) associates with C1q binding protein on the cell surface in a reaction dependent on Zn++ (Joseph et al. 1996). In the body, the Zn++ needed to drive this reaction may be provided locally by Zn++ release from activated platelets (Mahdi et al. 2002). The C1q binding protein is inferred to form tetramers based on the properties of purified recombinant protein in vitro (Ghebrehiwet et al. 1994); the stoichiometry of the cell surface complex has not been determined directly.
REACT_245 (Reactome) Factor VIIa, bound to tissue factor at the endothelial cell surface (the "extrinsic tenase complex"), catalyzes the formation of activated factor X with high efficiency. The amino terminal part of the heavy chain of factor X, the factor X activation peptide, is released. (This peptide has no known function.)
REACT_25 (Reactome) Activated kallikrein binds to alpha2-macroglobulin (Sottrup-Jensen et al. 1984), forming a stable and enzymatically inactive complex. Under normal conditions in vivo, this reaction appears to be responsible for the inactivation of about 1/6 of activated kallikrein (with C1Inh responsible for the inactivation of about 5/6) (Harpel et al. 1985).
REACT_374 (Reactome) Thrombin complexed with thrombomodulin at the endothelial cell surface cleaves the heavy chain of protein C, generating activated protein C and an activation peptide. The activation peptide has no known function.
REACT_493 (Reactome) Factor VII, bound to tissue factor at the endothelial cell surface, catalyzes the activation of factor X from plasma with moderate efficiency. The amino terminal part of the heavy chain of factor X, the factor X activation peptide, is released. (This peptide has no known function.)
REACT_531 (Reactome) Factor VIII binds to von Willebrand factor to form a complex. This complex stabilizes factor VIII, which otherwise has a very short half-life in the blood.

Factor VIII (Vehar et al. 1984) is a heterodimer containing a heavy and a light polypeptide chain, generated by the proteolytic cleavage of a single large precursor polypeptide. Several forms of the heavy chain are found in vivo, all functionally the same but differing in the amount of the B domain removed by proteolysis. The single form annotated here is the shortest one (Eaton et al. 1986; Hill-Eubanks et al. 1989).

In vitro, von Willebrand factor (Titani et al. 1986) can form complexes with factor VIII with a 1:1 stoichiometry. The complexes that form in vivo, however, involve large multimers of von Willebrand factor and varied, but always low, proportions of factor VIII (Vlot et al. 1995). A stoichiometry of one molecule of factor VIII associated with 50 of von Willebrand factor is typical in vivo, and is used here to annotate the factor VIII:von Willebrand factor complex.

REACT_654 (Reactome) TFPI binds to the factor VIIa:TF complex and to factor Xa at the endothelial surface, forming a stable heterotetrameric complex in which factor VIIa is catalytically inactive.
REACT_675 (Reactome) Factors Va and Xa associate on a membrane surface to form a complex in which the activity of factor Xa on prothrombin is greatly increased (Mann et al. 1988). The presence of negatively charged phospholipid in the membrane greatly facilitates this process, a feature that may contribute to its localization, as such phospholipids are normally on the cytosolic face of the plasma membrane (Devaux 1992), but could be exposed to the extracellular space following platelet activation or mechanical injury to endothelial cells.
REACT_6 (Reactome) Prekallikrein in a complex with kininogen and C1q binding protein on the plasma membrane is cleaved to generate active kallikrein, which remains bound to the complex. In the body, this reaction appears to occur on the surfaces of endothelial cells and may require the presence of activated platelets. Recent work indicates that the protease that cleaves prekallikrein under these conditions is prolylcarboxypeptidase. Although this enzyme was originally isolated from lysosomes (Odya et al. 1978; Tan et al. 1993), it is associated with plasma membranes of cultured human endothelial cells in vitro (Moreira et al. 2002; Shariat-Madar et al. 2002), and the purified recombinant enzyme efficiently cleaves prekallikrein (Shariat-Madar et al. 2004). In contrast factor XII, despite its activity on prekallikrein in vitro, appears not to be responsible for prekallikrein activation on the cell surface (Rojkjaer et al. 1998).
REACT_708 (Reactome) Activated thrombin (factor IIa) catalyzes the conversion of factor V to factor Va (activated factor V). The activation peptide released in this reaction has no known function.
REACT_825 (Reactome) Activated factor XII (factor XIIa) binds to C1Inh (C1 inhibitor - Bock et al. 1986) to form a stable, inactive complex (Schneider et al. 1973). While several protease inhibitors can form stable complexes with XIIa in vitro, only C1Inh does so to a significant extent under normal conditions in vivo (Pixley et al. 1985).
REACT_905 (Reactome) Factor XI, bound to the cell surface, is converted to activated factor XI (factor XIa). Chemically, this reaction involves the cleavage of a single peptide bond in each subunit of the factor XI homodimer; intra- and inter-chain disulfide bonds hold the resulting four polypeptides together (Bouma and Griffin 1977; Kurachi and Davie 1977; McMullen et al. 1991). In the body, this reaction occurs on the surfaces of activated platelets (Greengard et al. 1986; Baglia et al. 2002; Baird and Walsh 2002); when this reaction occurs as a step in the intrinsic ("contact") pathway of blood coagulation, it is catalyzed by activated factor XIIa (Kurachi and Davie 1977, Baglia and Walsh 2000) which in turn is generated through the interactions of factor XII, kallikrein, and kininogen on endothelial cell surfaces (Schmaier 2004).
REACT_9 (Reactome) Factor Xa catalyzes the activation of factor VII from plasma.
SERPINC1REACT_102 (Reactome)
SERPING1REACT_1486 (Reactome)
SERPING1REACT_825 (Reactome)
TF F7aREACT_654 (Reactome)
TF F7amim-catalysisREACT_158 (Reactome)
TF F7amim-catalysisREACT_245 (Reactome)
TF F7mim-catalysisREACT_493 (Reactome)
TFPIREACT_654 (Reactome)
THBDREACT_1834 (Reactome)
Va Xa complex mim-catalysisREACT_1446 (Reactome)
Zn2+ArrowREACT_2239 (Reactome)
activated kininogen C1q binding protein tetramerArrowREACT_2004 (Reactome)
activated protein CArrowREACT_374 (Reactome)
activated protein Cmim-catalysisREACT_1071 (Reactome)
activated thrombin thrombomodulinmim-catalysisREACT_374 (Reactome)
antithrombin III heparinREACT_1822 (Reactome)
factor IX activation peptideArrowREACT_158 (Reactome)
factor IX activation peptideArrowREACT_2073 (Reactome)
factor IXaArrowREACT_158 (Reactome)
factor IXaArrowREACT_2073 (Reactome)
factor IXaREACT_112 (Reactome)
factor V activation peptideArrowREACT_708 (Reactome)
factor VIIIREACT_531 (Reactome)
factor VIIIa factor IXamim-catalysisREACT_1668 (Reactome)
factor VIIIa B A3 acidic polypeptideArrowREACT_217 (Reactome)
factor VIIIaArrowREACT_217 (Reactome)
factor VIIIaREACT_112 (Reactome)
factor VIIaREACT_137 (Reactome)
factor VaArrowREACT_708 (Reactome)
factor VaREACT_675 (Reactome)
factor X activation peptideArrowREACT_1668 (Reactome)
factor X activation peptideArrowREACT_245 (Reactome)
factor X activation peptideArrowREACT_493 (Reactome)
factor XIII A chain activation peptideArrowREACT_1536 (Reactome)
factor XIII cleaved tetramerArrowREACT_1536 (Reactome)
factor XIII cleaved tetramerREACT_1314 (Reactome)
factor XIIIaArrowREACT_1314 (Reactome)
factor XIIIamim-catalysisREACT_1852 (Reactome)
factor XIIaREACT_825 (Reactome)
factor XIIamim-catalysisREACT_905 (Reactome)
factor XIREACT_177 (Reactome)
factor XIa

GPIb GPIX

GPV complex		mim-catalysisREACT_2073 (Reactome)
factor XREACT_1668 (Reactome)
factor XREACT_245 (Reactome)
factor XaArrowREACT_1668 (Reactome)
factor XaArrowREACT_245 (Reactome)
factor XaArrowREACT_493 (Reactome)
factor XaREACT_654 (Reactome)
factor XaREACT_675 (Reactome)
factor Xamim-catalysisREACT_1097 (Reactome)
factor Xamim-catalysisREACT_9 (Reactome)
fibrin monomerArrowREACT_214 (Reactome)
fibrin multimer, crosslinkedArrowREACT_1852 (Reactome)
fibrin multimerArrowREACT_1536 (Reactome)
kallikrein

kininogen

C1q binding protein tetramer		mim-catalysisREACT_1455 (Reactome)
kallikrein

kininogen

C1q binding protein tetramer		mim-catalysisREACT_2004 (Reactome)
prolylcarboxypeptidase dimermim-catalysisREACT_6 (Reactome)
thrombin

antithrombin III

heparin		mim-catalysisREACT_1500 (Reactome)
thrombin cleaved antithrombin IIIArrowREACT_1283 (Reactome)
von Willibrand factor multimerArrowREACT_217 (Reactome)
von Willibrand factor multimerREACT_531 (Reactome)
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