EC:3.4.21.73 - FACTA Search

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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)

Thrombin converts single-chain urokinase-type plasminogen activator (scu-PA) to an inactive two-chain derivative (thrombin-derived tcu-PA) by hydrolysis of the Arg-156--Phe-157 peptide bond. In the present study, we show that inactive thrombin-derived tcu-PA (specific activity 1000 IU/mg) can be converted with plasmin to active two-chain urokinase-type plasminogen activator (specific activity 43,000 IU/mg) by hydrolysis of the Lys-158--Ile-159 peptide bond. This conversion follows Michaelis-Menten kinetics with a Michaelis constant Km of 37 microM and a catalytic rate constant k2 of 0.013 s-1. The catalytic efficiency (k2/Km) for the activation of thrombin-derived tcu-PA by plasmin is about 500-fold lower than that for the conversion of intact scu-PA to tcu-PA. tcu-PA, generated by plasmin treatment of thrombin-derived tcu-PA, has similar properties to tcu-PA obtained by digestion of intact scu-PA with plasmin (plasmin-derived tcu-PA); its plasminogen activating potential and fibrinolytic activity in an in vitro plasma clot lysis system appear to be unaltered. These observations confirm that the structure of the NH2-terminal region of the B chain of u-PA is an important determinant for its enzymatic activity, whereas that of the COOH-terminal region of the A chain is not.
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PMID:Activation with plasmin of tow-chain urokinase-type plasminogen activator derived from single-chain urokinase-type plasminogen activator by treatment with thrombin. 296 62

Thrombin inhibitors have recently advanced to the stage of preclinical testing as anticoagulants. However, little is known about the effects of these inhibitors on the enzymes of the fibrinolytic system. In the present study we evaluated the effect of two protein and two synthetic inhibitors of thrombin on tissue plasminogen activator (tPA), urokinase, and plasmin. We found that hirudin inhibited the amidolytic activity of plasmin but had no effect on tPA or urokinase. Antithrombin III inhibited plasmin and urokinase but had no effect on tPA. D-Phe-Pro-Arg-CH2Cl inhibited plasmin and tPA but had no effect on urokinase. Thromstop inhibited all three fibrinolytic enzymes: plasmin, urokinase, and tPA. Thus each thrombin inhibitor tested had different inhibitory effects on the fibrinolytic enzymes. These effects should be carefully considered when thrombin inhibitors are used as antithrombotic drugs.
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PMID:Inhibition of fibrinolytic enzymes by thrombin inhibitors. 297 31

Plasma kallikrein was found to be a good activator of pro-urokinase, the inactive zymogen form of urokinase. The complete activation of pro-urokinase by plasma kallikrein was obtained in 2 h with an enzyme/substrate weight ratio of 1/30. The rate of activation of pro-urokinase by plasma kallikrein was comparable to that catalyzed by plasmin and trypsin. The rate of activation of pro-urokinase by factor XIIa was approximately one-seventh of that by plasma kallikrein. The activation of the zymogen was due to the cleavage of a single internal peptide bond, resulting in the conversion of a single chain pro-urokinase (Mr = 55,000) into two-chain urokinase (Mr = 33,000 and 22,000), and these two chains were linked by a disulfide bond(s). These results indicate an important role of plasma kallikrein for the activation of pro-urokinase in the factor XII-dependent intrinsic pathway of fibrinolysis. Thrombin also converted pro-urokinase to a two-chain form that was not activatable by plasmin, plasma kallikrein, and factor XIIa. Thrombin specifically cleaved the Arg 156-Phe 157 bond which is located 2 residues prior to the activation site of Lys 158-Ile 159.
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PMID:The activation of pro-urokinase by plasma kallikrein and its inactivation by thrombin. 308 6

alpha-Thrombin, DFP-thrombin, and ionophore A23187 induce the rapid release (less than 5 minutes) of a variety of proteins, including t-PA forms (Mr 110 and 70 k, after SDS-PAGE) from primary cultures, and both t-PA and u-PA (Mr 90 and 54 k) from subcultured human HUVECs. All PA activity forms are rapidly decreased in the releasates by some unknown mechanism. gamma-Thrombin does not induce the release of PAs from cultured HUVECs.
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PMID:Rapid release and deactivation of plasminogen activators in human endothelial cell cultures in the presence of thrombin and ionophore A23187. 309 27

A fraction of the 125I-thrombin that binds to human platelets is taken into a sodium dodecyl sulfate-resistant 77 kDa complex with a platelet factor (Bennett, W. F., and Glenn, K. C. (1980) Cell 22, 621-627). Here we show that this platelet factor is in several respects similar to protease nexin I (PNI), a fibroblast thrombin inhibitor. The complexes are of the appropriate size, bind to Sepharose that has been derivatized with anti-PNI antibody, do not form when the thrombin active site has been blocked with diisopropylphosphofluoridate, and do not appear on platelets when heparin is present. However, the platelet factor does not bind urokinase, indicating that this "platelet PN" may be distinct from PNI. Following brief incubation with 125I-thrombin, platelet PN X 125I X thrombin complexes are found both associated with the platelets and free in the binding medium. 125I-Thrombin has a higher affinity for platelet PN than for platelet receptors. In 30-s binding incubations carried out with thrombin at concentrations below 0.3 nM, formation of the 77-kDa complex accounts for most of the platelet specific binding of 125I-thrombin. Subtracting this large contribution to 125I-thrombin-specific binding reveals that the reversible binding of 125I-thrombin to platelet receptors exhibits sigmoidal thrombin dose-dependence. Thrombin stimulation of platelet [14C]serotonin release exhibits similar thrombin dose dependence. These results indicate that platelets may possess a mechanism for suppressing their interaction with active thrombin at thrombin doses below 0.3 nM. It is possible that platelet PN carries out this function by capturing thrombin before thrombin binds to its signal-transmitting receptors.
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PMID:Thrombin interaction with platelets. Influence of a platelet protease nexin. 310 83

Urokinase was covalently bounded with modified thrombin. Thrombin was modified by carbodiimide and 1, 12-dodecamethylenediamine. In this conjugate thrombin is not catalytically active and does not induce platelets aggregation. The catalytic properties of modified urokinase do not essentially differ from native enzyme but its thermostability increases. The modified urokinase thrombolytic effect is at least 10-fold higher than the native one. In femoral arteries of experimental thrombosis the conjugate urokinase-thrombin brings about total thrombolytic effect as early as 1.5 hours after injection (2500 IU per 1 kg of the animals weight). The causes of the observed effect were discussed.
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PMID:[Thrombolytic action of urokinase preparation covalently bound to modified thrombin]. 316 85

Human foreskin microvascular endothelial cells synthesize and release tissue-type plasminogen activator (t-PA) in similar amounts as do endothelial cells from umbilical cord artery and vein. Human thrombin increases the production of t-PA by these cells, which could be visualized from 8 h after addition of 0.1-5 units/ml thrombin by fibrin autography after SDS polyacrylamide gel electrophoresis of the endothelial cell conditioned media. Thrombin also increased the secretion of t-PA antigen. Together with t-PA, human microvascular cells release urokinase-type plasminogen activator (u-PA) antigen and endothelial cell-type PA inhibitor, PA inhibitor-1, which were both demonstrated by specific immunoprecipitation from radiolabeled endothelial cell conditioned medium. Thrombin increases the release of u-PA antigen, but no u-PA activity could be demonstrated. Thrombin induced a two-fold stimulation of the synthesis and secretion of PA inhibitor-1 antigen. At 0.1 unit/ml thrombin also an increase in PA inhibitor activity was found. At high concentrations of thrombin a decrease of PA inhibitor activity was found, due to the conversion of the active 46 kD PA inhibitor-1 into a 42 kD product without PA inhibitor activity. Our data indicate that interaction of thrombin with microvascular endothelial cells will shift the balance between t-PA, u-PA and PA inhibitor-1, and thus affects the regulation of fibrinolysis.
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PMID:Effect of thrombin on the production of plasminogen activators and PA inhibitor-1 by human foreskin microvascular endothelial cells. 349 79

Mononuclear leukocytes release an inhibitor of plasminogen activators. Mononuclear leukocyte mixtures (400 to 1,000/mm3) lysed fibrin (8.3 microM) clots in the presence of plasminogen (0.58 microM). Anti-urokinase IgG (0.16 microM) inhibited this fibrinolysis. 2-Deoxyglucose (5 mM) and oligomycin (2.3 microM) also inhibited fibrinolysis. Incubation of mononuclear leukocytes (3,200/microliter) with phorbol-12 myristate 13-acetate (20 nM) for ten minutes at 37 degrees C aggregated the monocyte and platelet components and inhibited fibrinolysis. The releasate from these stimulated cells in dilutions ranging from undiluted to 1:16 inhibited urokinase (1.6 pM) and tissue plasminogen activator (1.4 pM). This releasate did not inhibit plasmin (2.5 nM). Incubation of this releasate with activated protein C (33 nM to 333 nM) for ten minutes at 37 degrees C before addition of either urokinase, or tissue plasminogen activator and plasminogen completely prevented this inhibition. Thrombin, factor Xa, DIP-activated protein C had no affect on this inhibition. We conclude that activated protein C facilitates fibrinolysis by preventing inhibition of plasminogen activators. This may be a mechanism by which activated protein C increases fibrinolytic activity in vivo.
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PMID:A new function for activated protein C: activated protein C prevents inhibition of plasminogen activators by releasate from mononuclear leukocytes--platelet suspensions stimulated by phorbol diester. 392 Jul 76

A new affinity chromatographic procedure was devised to purify inactive renin by using a selective hydrophobic interaction of inactive renin to octyl-Sepharose. Additional extensive purification was accomplished by immunoaffinity chromatography on antihuman renin immunoglobulin G-Sepharose. A trace amount of active renin was removed by chromatography on pepstatin-Sepharose. Human plasma inactive renin purified by this method was free from protease inhibitors and permitted the investigation of protease-mediated activation without the acid treatment which was used previously to remove inhibitors. Human plasma kallikrein, human plasmin, cathepsin B1, and arginine esteropeptidases associated with mouse epidermis growth factor and nerve growth factor were effective activators. Human urinary kallikrein, hog pancreatic kallikrein, and rat urinary esterase A were inefficient activators of low potency. Thrombin, factor Xa, factor XIIa, and urokinase did not activate inactive renin. The in vitro activation of 56,000-dalton inactive renin by these proteases was not accompanied by a recognizable reduction in molecular weight. Activation required plasma albumin, presumably as a protecting substance. These results suggest that human inactive renin can be activated by a minimum change in its molecular size.
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PMID:Human plasma inactive renin: purification and activation by proteases. 621 31

Tripeptide derivatives of lysyl or arginyl chloromethylketone inhibit the trypsin-like serine proteases trypsin, thrombin, plasmin, Factor Xa, urokinase, tissue-type plasminogen activator and protein Ca following the reaction scheme: (formula; see text) Extremely potent tripeptide inhibitors were obtained for thrombin and trypsin (k2/Ki greater than 10(6) M-1s-1), moderate inhibitors for plasmin and Factor Xa (10(6) M-1s-1 greater than k2/Ki greater than 10(4) M-1s-1) and only weak inhibitors for urokinase, tissue-type plasminogen activator and protein Ca (k2/Ki less than 10(4) M-1s-1). Thrombin and Factor Xa as well as urokinase and tissue-type plasminogen activator can be discriminated on the basis of their inhibitory spectrum towards some of these inhibitors.
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PMID:Inhibition of trypsin-like serine proteinases by tripeptide arginyl and lysyl chloromethylketones. 623 78

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