EC:3.4.21.73 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.73 (urokinase-type plasminogen activator)
10,685 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human coagulation factor XI has been purified, and upon activation with Hageman factor fragments, was found to convert the fibrinolytic proenzyme plasminogen to plasmin. This proactivator activity was shown to be functionally and antigenically distinct from prekallikrein. When the gamma-globulin fractions of plasma deficient in Hageman factor, prekallikrein and factor XI were isolated, factor-XI-deficient plasma possessed two-thirds of the plasminogen proactivator activity of the Hageman-factor-deficient plasma, while prekallikrein deficient plasma had only one-third of the plasminogen proactivator activity. Thus, the Hageman-factor-dependent plasminogen proactivator previously reported to be present in the gamma-globulin fraction of normal human plasma is a function of prekallikrein and factor XI, while the activity observed in prekallikrein-deficient plasma is attributable to factor XI. When compared utilizing digestion of iodinated fibrin, prekallikrein and factor XIa had similar potency per active site; they were, however, far less active than urokinase.
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PMID:Hageman-factor-dependent fibrinolysis: generation of fibrinolytic activity by the interaction of human activated factor XI and plasminogen. 8 76

Blood clotting and fibrinolytic systems were studied in the plasma of a sei whale (Balaenoptera borealis). The sei whale belongs to the suborder baleen whales of the order Cetacea. Whale plasma had a greatly prolonged kaolin-activated partial thromboplastin time and was deficient in Hageman factor (factor XII), Fletcher factor (a plasma prekallikrein), and PTA (factor XI). All other clotting factor activities were present in amounts comparable to that of normal human plasma. Whale plasminogen was activated by human urokinase, but not by streptokinase. Whale plasma contained inhibitory activities against thrombin, activated Stuart factor, activated PTA, activated Fletcher factor, and plasmin.
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PMID:Studies on the blood clotting and fibrinolytic system in the plasma from a sei (baleen) whale. 96 76

The analysis of normal human plasma by fibrin autography revealed four species of plasminogen activator (PA) activity related to tissue-type PA, factor XII, prekallikrein and urokinase-type PA (u-PA). The u-PA activity increased significantly by incubating plasma with dextran sulfate. This increase was coincident with both the cleavage of factor XII and the complex formation of activated factor XII with its plasma inhibitors, which were determined by immunoblotting procedure. The dextran sulfate-dependent activation of u-PA required both factor XII and prekallikrein, but did not require either plasminogen or factor XI. High molecular weight kininogen was required only at a low concentration of dextran sulfate. Thus the results indicate that the factor XII and prekallikrein-mediated activation of single chain u-PA (scu-PA) operates as a major pathway of scu-PA activation in whole plasma in contact with dextran sulfate.
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PMID:Analysis of intrinsic fibrinolysis in human plasma induced by dextran sulfate. 163 92

Factor XI (plasma thromboplastin antecedent) is a plasma glycoprotein that participates in the early phase of blood coagulation. The gene for the human protein has been isolated from two different lambda phage genomic libraries. Four independent recombinant lambda phage carrying overlapping DNA inserts that coded for the entire gene for factor XI were isolated and characterized by restriction mapping, Southern blotting, and selective DNA sequencing to establish the number and location of the intron-exon boundaries. The gene for human factor XI was 23 kilobases in length and consisted of 15 exons (I-XV) and 14 introns (A-N). Exon I coded for the 5' untranslated region, and exon II coded for the signal peptide. The next eight exons (III-X) coded for the four tandem repeats of 90 or 91 amino acids that were present in the amino-terminal region of the mature protein. Each of these tandem repeats was coded by two exons that were interrupted by a single intron, and these introns were located in essentially the same position within each of the four tandem repeats. The carboxyl-terminal region of the protein, which contained the catalytic chain, was coded by five exons (XI-XV) that were interrupted by four introns. The last four introns were located in the same positions as those in the genes for human tissue plasminogen activator and human urokinase.
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PMID:Organization of the gene for human factor XI. 282 46

Two different plasmatic plasminogen activators (PA) can be demonstrated after sodium dodecyl sulfate polyacrylamide gel electrophoresis of plasma freshly collected from resting volunteers, followed by transfer of the gels onto plasminogen-rich fibrin-agarose plates. These two PA are also present in plasmas deficient in coagulation Factor XI, Factor XII, prekallikrein, or high molecular weight-kininogen. The slower-moving PA has an apparent 85,000 Mr and is immunologically unrelated to urokinase (UK). The faster moving PA was isolated by immunoadsorption of plasma on anti-UK IgG coupled to Sepharose 4B and appears to be identical to urinary high molecular weight-UK.
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PMID:Isolation from human plasma of a plasminogen activator identical to urinary high molecular weight urokinase. 675 69

The plasma levels of factor XII, prekallikrein, factor XI, and high molecular weight kininogen were studied in women with bilateral oophorectomy and hysterectomy who received hormone replacement therapy with a 2 mg daily dose of estradiol valerate. Also plasminogen activator activity was investigated. The observations made provide support for the assumption that the low doses of estrogen used in hormone replacement therapy do not significantly affect the levels of contact activation or fibrinolytic factors in plasma. Plasma obtained from young, healthy women was used as a standard reference material. Significantly higher levels of factor XII and prekallikrein were registered in functional tests in the ectomized women than in the reference material, an increase not observed in the immunological assays. These observations are discussed in light of recently published data from our laboratory on an increase in the measured level of factor XII obtained upon the removal of IgG before assay. Also a marked increase in urokinase activity was registered in the ectomized women. The high levels of factor XII, prekallikrein, and urokinase, as compared with the reference material, seemed to be age dependent, being also observed in a group of naturally postmenopausal women.
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PMID:Contact activation factors in plasma from women on estrogen replacement therapy after ovariohysterectomy. 1006 71

The incomplete penetrance of thrombosis in familial protein C deficiency suggests disease occurs when this deficit is combined with additional abnormalities in the hemostatic system. The pattern of inherited thrombophilia in the Vermont II kindred, which is affected by a clinically dominant type I protein C deficiency, provides strong evidence for a second unidentified gene that segregates independently of protein C deficiency and increases susceptibility to thrombosis. To test the second gene hypothesis, thirty-four candidate genes for proteins involved in hemostasis or inflammation were tested as the unknown defect, using highly polymorphic short tandem repeat (STR) markers in an informative subset (n = 31) of the kindred. The genes considered are; alpha-fibrinogen, beta-fibrinogen, gamma-fibrinogen, prothrombin, tissue factor, factor V, protein S, complement component 4 binding protein, factor XI, factor XII, factor XIIIa, factor XIIIb, histidine rich glycoprotein, high molecular weight kininogen, kallikrein, von Willebrands factor, platelet factor 4, thrombospondin, antithrombin III, alpha-1-antitrypsin, thrombomodulin, plasminogen, tissue plasminogen activator, urokinase plasminogen activator, plasminogen activator inhibitor-1, plasminogen activator inhibitor-2, protein C inhibitor, alpha-2-plasmin inhibitor, kallistatin, lipoprotein a, interleukin 6, interleukin 1, cystathionine-beta-synthase, and methylenetetrahydrofolate reductase. Mutations in many of these genes have been previously established as independent risk factors for thrombosis. However, linkage analysis provided no evidence to implicate any of the candidate genes as the second inherited factor that promotes thrombophilia in this kindred.
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PMID:Genetic screening of candidate genes for a prothrombotic interaction with type I protein C deficiency in a large kindred. 1120 93

Understanding the importance and physiologic activity of the plasma kallikrein/kinin system (KKS) has been thwarted by the absence of an inclusive theory for its assembly and activation. The contact activation hypothesis describes the assembly and activation of this system in test tubes and disease states, but not under physiologic circumstances. Recent investigations have indicated a new cohesive hypothesis for understanding physiologic activation of this system. Prekallikrein (PK) and factor XI (FXI) through high molecular weight kininogen (HK) assemble on a co-localized, multiprotein receptor complex on endothelial cells that consists of at least cytokeratin 1 (CKI), gClqR, and urokinase plasminogen activator receptor (muPAR). When assembled on these proteins, prekallikrein becomes activated to kallikrein by the membrane-expressed enzyme prolylcarboxypeptidase (PRCP). Formed kallikrein then activates factor XII (FXII) for amplification of its activation and single chain urokinase. The plasma kallikrein/kinin system may serve as a physiologic counterbalance to the plasma renin angiotensin system (RAS) by lowering blood pressure and preventing thrombosis. Insights into the integrated role of these two systems may afford the development of novel therapeutic drugs to manage hypertension and thrombosis.
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PMID:Assembly and activation of the plasma kallikrein/kinin system: a new interpretation. 1248 98

The fifth domain (DV) of beta2-glycoprotein I (beta2GPI) is important for binding a number of ligands including phospholipids and factor XI (FXI). Beta2GPI is proteolytically cleaved in DV by plasmin but not by thrombin, VIIa, tissue plasminogen activator, or uPA. Following proteolytic cleavage of DV by plasmin, beta2GPI retains binding to FXI but not to phospholipids. Native beta2GPI, but not cleaved beta2GPI, inhibits activation of FXI by thrombin and factor XIIa, attenuating a positive feedback mechanism for additional thrombin generation. In this report, we have defined the FXI/FXIa binding site on beta2GPI using site-directed mutagenesis. We show that the positively charged residues Lys284, Lys286, and Lys287 in DV are essential for the interaction of beta2GPI with FXI/FXIa. We also demonstrate that FXIa proteolytically cleaves beta2GPI at Lys317-Thr318 in DV. Thus, FXIa cleavage of beta2GPI in vivo during thrombus formation may accelerate FXI activation by decreasing the inhibitory effect of beta2GPI.
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PMID:Domain V of beta2-glycoprotein I binds factor XI/XIa and is cleaved at Lys317-Thr318. 1552 84

The plasma bradykinin-forming cascade and the complement pathways share many elements, including cross-activation, common control mechanisms, and shared binding proteins. The C1 inhibitor (C1 INH) is not only the inhibitor of activated C1r and C1s, but it is the key control protein of the plasma bradykinin-forming cascade. It inhibits the autoactivation of Factor XII, the ability of Factor XIIa to activate prekallikrein and Factor XI, the activation of high molecular weight kininogen (HK) by kallikrein, and the feedback activation of Factor XII by kallikrein. Thus in the absence of C1 INH (hereditary angioedema or acquired C1 INH deficiency) there is unimpeded formation of bradykinin leading to angioedema. Activated Factor XII (Factor XIIa, 80,000 kDa) is further cleaved by kallikrein or plasmin to yield Factor XII fragment (Factor XIIf, 30,000 kDa) and Factor XIIf can activate the C1r subcomponent of C1, particularly when C1 INH (which inhibits Factor XIIf) is absent. Once bradykinin is formed, it causes vasodilatation and increased vascular permeability by interaction with constitutively expressed B-2 receptors. However degradation of bradykinin by carboxypeptidase N (in plasma) or carboxypeptidase M (on endothelial cells) yields des-arg-9 (Kerbiriou and Griffin, 1979) bradykinin which interacts with B-1 receptors. B-1 receptors are induced in inflammatory states by cytokines such as Interleukin 1 and its interaction with bradykinin may prolong or perpetuate the vascular response until bradykinin is completely inactivated by angiotensin converting enzyme or aminopeptidase P, or neutral endopeptidase. The entire bradykinin-forming cascade is assembled and can be activated along the surface of endothelial cells in zinc dependent reactions involving gC1qR, cytokeratin 1, and the urokinase plasminogen activated receptor (u-PAR). Although Factors XII and HK can be shown to bind to each one of these proteins, they exist in endothelial cells as two bimolecular complexes; gC1qR-cytokeratin 1, which preferentially binds HK, and cytokeratin 1-u-PAR which preferentially binds Factor XII. The gC1qR, which binds the globular heads of C1q is present in excess and can bind either Factor XII or HK however the binding sites for HK and C1q have been shown to reside at opposite ends of gC1qR. Activation of the bradykinin-forming pathway can be initiated at the cell surface by gC1qR-induced autoactivation of Factor XII or direct activation of the prekallikrein-HK complex by endothelial cell-derived heat-shock protein 90 (HSP 90) or prolylcarboxypeptidase with recruitment or Factor XII by the kallikrein produced.
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PMID:The plasma bradykinin-forming pathways and its interrelationships with complement. 2058 91

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