Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Thrombospondin (TSP) is a multifunctional platelet alpha-granule and extracellular matrix glycoprotein that binds specifically to plasminogen (Plg) via that protein's lysine-binding site and modulates activation by tissue activator (TPA). In this study we report that the plasminogen activators, TPA and urokinase, greatly influence the binding of Plg to TSP. Using an enzyme-linked immunosorbent assay and a TSP-Sepharose affinity bead-binding assay we have found that Plg-TSP complex formation was markedly enhanced (up to 5-fold) when catalytic concentrations of Plg activators were included in the reaction mixtures. The enhancement was dependent upon the generation of small amounts of active plasmin and was duplicated by pretreatment of the immobilized TSP with plasmin prior to addition of the Plg. The enhancement effect was associated with selective proteolysis of the immobilized TSP. Purified Lys-Plg (the plasmin modified form of native Glu-Plg) bound to TSP to a greater extent than Glu-Plg, and binding of both forms was augmented by Plg activators. The apparent KD values of complex formation were unchanged in the presence of Plg activators suggesting that the enhancement effect was due to the generation of additional binding sites. The increased amount of bound Plg was demonstrated to result in a similar increase in the amount of plasmin generated from the complexes by TPA. Plg activators did not influence binding of Plg to histidine-rich glycoprotein or of histidine-rich glycoprotein to TSP, demonstrating specificity. In addition when TSP was treated with other proteases (human thrombin or human leukocyte elastase) no augmentation of Plg binding was seen. Thus, the initial production of small amounts of plasmin from Plg immobilized on TSP in fibrin-free microenvironments could generate a positive feedback loop by enzymatically modifying both TSP and Plg, resulting in an increase in TSP-Plg complex formation leading to the localized production of substantially more plasmin.
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PMID:Tissue plasminogen activator and urokinase enhance the binding of plasminogen to thrombospondin. 294 36

The amidolytic plasmin activity of a mixture of tissue plasminogen activator (tPA) and plasminogen is enhanced by heparin at therapeutic concentrations. Heparin also increases the activity in mixtures of urokinase-type plasminogen activator (uPA) and plasminogen but has no effect on streptokinase or plasmin. Direct analyses of plasminogen activation by polyacrylamide gel electrophoresis demonstrate that heparin increases the activation of plasminogen by both tPA and uPA. Binding studies show that heparin binds to various components of the fibrinolytic system, with tight binding demonstrable with tPA, uPA, and Lys-plasminogen. The stimulation of tPA activity by fibrin, however, is diminished by heparin. The ability of heparin to promote plasmin generation is destroyed by incubation of the heparin with heparinase, whereas incubation with chondroitinase ABC or AC has no effect. Also, stimulation of plasmin formation is not observed with dextran sulfate or chondroitin sulfate A, B, or C. Analyses of heparin fractions after separation on columns of antithrombin III-Sepharose suggest that both the high-affinity and the low-affinity fractions, which have dramatically different anticoagulant activity, have similar activity toward the fibrinolytic components.
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PMID:Interaction of heparin with plasminogen activators and plasminogen: effects on the activation of plasminogen. 294 15

A procedure for the analysis of the fibrinolytic system in human blood was devised by combining high-performance affinity chromatography (HPAC) and specific detection of proenzyme. Components of the fibrinolytic system were separated by HPAC using Asahipak GS gel coupled with p-aminobenzamidine, and they were specifically detected by means of an on-line enzyme assay system. This system made it possible to quantitate not only Glu-plasminogen (Glu-Plg) but also Lys-plasminogen (Lys-Plg) in human plasma in a short time without pre-treatment. The effect of urokinase on the state of components of the fibrinolytic system in blood was studied. It was clearly shown that Lys-Plg is more susceptible to activation by urokinase than Glu-Plg (both in vitro and in vivo).
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PMID:Combination of high-performance affinity chromatography and specific detection of proenzyme applicable to the analysis of the fibrinolytic system of human plasma. 295 90

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

Human plasminogens specifically separated by high-performance affinity chromatography were specifically detected by a newly devised, on-line monitoring system, in which the proenzymes were activated by urokinase and plasmin activity thus generated was assayed. Presence of Lys-plasminogen as a constituent in the blood was demonstrated by both chromatographic patterns and biochemical experiments. This system made it possible to estimate rapidly not only Glu-plasminogen but also Lys-plasminogen in the plasma without any pretreatment. Its utility as a tool for clinical analysis of fibrinolytic system was suggested.
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PMID:A rapid and sensitive analytical procedure for human plasminogen subspecies. Combination of high-performance affinity chromatography and specific monitoring of proenzymes. 296 38

Tissue plasminogen activator (t-PA) and/or pro-urokinase (pro-UK) induced lysis of standard 125I-fibrin clots suspended in plasma was studied. Doses were kept below the concentration at which a nonspecific effect was seen, i.e., where fibrinogenolysis and major plasminogen consumption were observed. Small amounts of t-PA potentiated clot lysis by pro-UK by attenuating the lag phase characteristic of pro-UK, and causing a much earlier transition to the rapid phase of lysis. Similar promotion of the fibrinolytic effect of pro-UK was obtained when clots were pretreated with UK or with a little plasmin (less than 1% clot lysis). Promotion by plasmin was nullified by a subsequent treatment of the clot with carboxypeptidase B, indicating that the plasmin effect was related to the exposure of carboxy terminal lysine residues on fibrin. These lysine termini, absent in undegraded fibrin, are known to be essential for the high affinity binding of plasminogen to fibrin. In contrast, clot lysis by t-PA was unaffected by plasmin pretreatment and little affected by carboxypeptidase B treatment of the fibrin substrate. Therefore, plasminogen bound to lysine termini on fibrin, although found to be essential for pro-UK, did not appear to serve as a substrate for t-PA. Selective activation of fibrin bound plasminogen has been attributed to the conformational change in Glu-plasminogen that occurs as a result of binding. The present findings suggest that this conformational change occurs when plasminogen is bound to a terminal lysine but not to an internal lysine. Plasminogen bound to the latter site on fibrin was activated by t-PA and therefore is involved in the ternary complex. This initiates lysis of the undegraded clot and exposes the plasminogen binding sites required by pro-UK. By their complementary activation of fibrin bound plasminogen, t-PA followed by pro-UK induces efficient and synergistic fibrinolysis, whereas each is relatively inefficient when used alone.
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PMID:Complementary modes of action of tissue-type plasminogen activator and pro-urokinase by which their synergistic effect on clot lysis may be explained. 296 31

Single chain urokinase (SC-UK) is a precursor of 55 kd two-chain UK (TC-UK). Treatment with catalytic proportions of plasmin or kallikrein converts SC-UK to TC-UK as a consequence of cleavage of its Lys158-Ile159 peptide bond. This plasmin-mediated activation of SC-UK induces a positive feedback secondary reaction and complicates measurement of its activity against its natural substrate, Glu-plasminogen. The fibrin-selective effect of pro-UK-induced clot lysis is not related to fibrin binding. Rather, a conformational change in Glu-plasminogen, conferred when it binds to certain carboxy-terminal lysine residues on fibrin, has been implicated in this mechanism. This is complementary to t-PA. Fibrin-bound t-PA was found to exclusively activate plasminogen bound to certain internal lysine residues. Their complementariness is believed to explain their synergism in fibrinolysis.
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PMID:Activation of fibrin-bound plasminogen by pro-urokinase and its complementariness with that by tissue plasminogen activator. 297 33

A functionally active human microplasminogen without kringle structures was produced by incubation of plasminogen with urokinase-free plasmin at an alkaline pH. The microplasminogen was purified by affinity chromatography on lysine- and soybean trypsin inhibitor-Sepharose and by chromofocusing. Human plasminogen is specifically cleaved at Arg529-Lys530 by plasmin to form microplasminogen, which consists of a single polypeptide of 261 residues from the COOH-terminal portion of native plasminogen. It has an Mr of 28,617, calculated from the sequence, which is consistent with the molecular weight determined by sodium dodecyl sulfate gel electrophoresis. Microplasminogen is a slightly basic protein and is eluted from a chromofocusing column at pH 8.3. It can be activated by urokinase and streptokinase to a catalytically active microplasmin. The specific amidolytic activity of microplasmin is about three times higher than Lys77-plasmin on a weight basis and is about the same on a molar basis. The activation of microplasminogen by streptokinase is slower than that of either Glu-plasminogen or Lys77-plasminogen. On the other hand, the activation of microplasminogen by urokinase is faster than that of either of the latter. The Arg560-Val561 bond is cleaved during activation of both microplasminogen and native plasminogen.
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PMID:Isolation and characterization of microplasminogen. A low molecular weight form of plasminogen. 297 17

Inflammatory fibrinolysis by plasmin or phagocyte proteases is a major cause of skin graft failure on burn wounds where the primary adherent attachment of the skin grafts is due to the glue-like action of fibrin. We investigated the potential of mafenide acetate solution, an experimental topical antimicrobial used in treating grafted burn wounds, to modify plasmin fibrinolytic activity in vitro and, thus, its potential to alter or modify the integrity of the fibrin glue critical for skin graft viability. Immobilized 125I-fibrin monolayers were used to assay fibrinolytic activity from plasmin or from plasma activated by streptokinase or urokinase and modified by the presence of mafenide or epsilon-aminocaproic acid (EACA). While streptokinase-activated plasma lysed 52.7 +/- 3.9% of the 125I-fibrin, this plasmin activity was more than 80% inhibitable by EACA. Mafenide acetate had no intrinsic fibrinolytic activity (1.5 +/- 0.3%) nor activated plasma fibrinolytic potential (2.4 +/- 0.5%), but produced significant and dose-related reduction in fibrinolytic activity (p less than 0.001). Other sulfonamide analogues lacking a para-methylamino reactive group had 10-100 fold less antifibrinolytic potency while lysine, like mafenide, able to compete for plasmin binding sites, could potently block fibrinolysis. Mafenide did not qualitatively alter activation of plasminogen or affect generation of complexes with alpha 2 antiplasmin complexes. Adding mafenide only minutes following streptokinase-activated plasma or plasmin with the fibrin substrate reduced antifibrinolytic activity, supporting the conclusion that mafenide, like EACA, can modulate the interaction between fibrin and the plasmin reactive sites and thus prevent close plasmin/fibrin apposition.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mafenide (Sulfamylon) inhibits plasmin fibrinolytic activity. 297 51

Single-chain urokinase-type plasminogen activator (scu-PA) is converted to urokinase by hydrolysis of the Lys158-Ile159 peptide bond. Site-directed mutagenesis of Lys158 to Gly or Glu yields plasmin-resistant mutants with a 10-20-fold reduced catalytic efficiency for the activation of plasminogen [Nelles et al. (1987) J. Biol. Chem. 262, 5682-5689]. In the present study, we have further evaluated the enzymatic properties of derivatives of recombinant scu-PA (rscu-PA), produced by site-directed mutagenesis of Lys158, Ile159 or Ile160, in order to obtain additional information on the structure/function relations underlying the enzymatic properties of the single- and two-chain u-PA moieties. [Arg158]rscu-PA (rscu-PA with Lys158 substituted with Arg) appeared to be indistinguishable from wild-type rscu-PA with respect to plasminogen-activating potential (catalytic efficiency k2/Km = 0.21 mM-1 s-1 versus 0.64 mM-1 s-1), conversion to active two-chain urokinase by plasmin (k2/Km = 0.13 microM-1 s-1 versus 0.28 microM-1 s-1), as well as its specific activity (48,000 IU/mg as compared to 60,000 IU/mg) and its fibrinolytic potential in a plasma medium (50% lysis in 2 h with 2.8 micrograms/ml versus 2.1 micrograms/ml). [Pro159]rscu-PA (Ile159 substituted with Pro) and [Gly159]rscu-PA (Ile159 converted to Gly) are virtually inactive towards plasminogen (k2/Km less than 0.004 mM-1 s-1). They are however converted to inactive two-chain derivatives by plasmin following cleavage of the Arg156-Phe157 peptide bond in [Pro159]rscu-PA and of the Lys158-Gly159 peptide bond in [Gly159]rscu-PA. [Gly158,Lys160]rscu-PA (with Lys158 converted to Gly and Ile160 to Lys) has a low catalytic efficiency towards plasminogen both as a single-chain form (k2/Km = 0.012 mM-1 s-1) and as the two-chain derivative (k2/Km = 0.13 mM-1 s-1) generated by cleavage of both the Arg156-Phe157 and/or the Lys160-Gly161 peptide bonds by plasmin. These findings suggest that the enzymatic properties of rscu-PA are critically dependent on the amino acids in position 158 (requirement for Arg or Lys) and position 159 (requirement for Ile). Conversion of the basic amino acid in position 158 results in a 10-20-fold reduction of the catalytic efficiency of the single-chain molecule but yields a fully active two-chain derivative. The presence of Ile in position 159 is not only a primary determinant for the activity of the two-chain derivative, but also of the single-chain precursor. Cleavage of the Arg156-Phe157 or the Lys160-Gly161 peptide bonds by plasmin yields inactive two-chain derivatives.
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PMID:Structural and functional characterization of mutants of recombinant single-chain urokinase-type plasminogen activator obtained by site-specific mutagenesis of Lys158, Ile159 and Ile160. 297 84


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