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)

The genes encoding the two plasminogen activators, tissue plasminogen activator and urokinase, were mapped to mouse chromosomes using probes derived from the respective mouse cDNAs. DNA from mouse-Chinese hamster and mouse-rat somatic cell hybrids was digested with BamHI and EcoRI, respectively, and analyzed by Southern blot hybridization for the segregation of the two genes. Tissue plasminogen activator and urokinase cosegregated with mouse chromosomes 8 and 14, respectively. The plasminogen activator genes thus fall into two syntenic groups that are conserved in human and mouse.
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PMID:Chromosomal assignments of genes for tissue plasminogen activator and urokinase in mouse. 282 34

The interaction of tissue plasminogen activator derived from a melanoma cell line with a specific plasminogen activator inhibitor from placental tissue, which inhibits urokinase and tissue plasminogen activator but not plasmin, was studied. Tissue plasminogen activator exists in two forms, a one chain and a two chain molecule. It was found that the two enzyme species each form 1:1 complexes with the inhibitor and that the two chain enzyme binds the inhibitor very strongly, Ki = 3 X 10(-10) mol/l, whereas the one chain enzyme forms a much weaker complex, Ki is approximately 10(-7) to 10(-8) mol/l. Substrate hydrolysis is much more efficiently catalysed by the two chain plasminogen activator than by the one chain activator.
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PMID:Different inhibition of one and two chain tissue plasminogen activator by a placental inhibitor studied with two tripeptide-p-nitroanilide substrates. 293 Aug 96

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

Tissue plasminogen activator and urokinase were evaluated in a model of prosthetic graft thrombosis. In addition, the effects of thrombus age on lysability and the effect of thrombolytic agents on endothelium were examined. Polytef (polytetrafluoroethylene [PTFE]) grafts (3 mm X 3.5 cm) were placed in femoral arteries of dogs and graft thrombosis was induced. Grafts were treated with a local infusion of either urokinase or tissue plasminogen activator (4000 units/min) and the times for initial flow, complete thrombolysis, and anastomotic bleeding were noted. The luminal surfaces of the grafts and the proximal arterial segments were assayed for the production of thromboxane A2 and prostacyclin and examined with scanning electron microscopy. No difference in the ease of graft lysis was observed, but 50% of tissue plasminogen activator-treated vs 0% of urokinase treated grafts had extravasation of blood through the wall. Grafts treated with tissue plasminogen activator produced less thromboxane A2 and had less thrombus than those treated with urokinase. No differences between arteries exposed to either agent and control arteries were seen. Grafts treated 1,3,5, and 7 days after thrombosis were progressively more difficult to lyse. We conclude that tissue plasminogen activator is an effective thrombolytic agent, but has a potential for local bleeding complications. Grafts of PTFE are thrombogenic after lysis, but may be less so with tissue plasminogen activator than with urokinase. No effect on arterial endothelium was seen, and our studies confirm the clinical impression that older thrombi are more difficult to lyse.
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PMID:Efficacy of tissue plasminogen activator and urokinase in a canine model of prosthetic graft thrombosis. 308 27

The chemistry, pharmacology, pharmacokinetics, clinical efficacy, adverse effects, contraindications, and dosage and administration of tissue plasminogen activator are reviewed. Tissue plasminogen activator (t-PA) is a serine protease that binds to fibrin-plasminogen complex, catalyzing the conversion of plasminogen to plasmin. Unlike streptokinase or urokinase, t-PA binds slowly, if at all, to free circulating plasminogen. This clot specificity suggests t-PA will not produce a systemic lytic effect; however, clot specificity appears to be dose-related, and concentrations similar to those achieved in recent clinical trials have been associated with hemostatic defects. Most clinical trials have used a recombinant DNA product (rt-PA). In the treatment of acute myocardial infarction, intravenous infusions of rt-PA appear to be more effective than intravenous streptokinase. Similar rates of hemorrhage, reperfusion arrhythmias, and reocculsion have been reported. Contraindications to rt-PA use are similar to those for other thrombolytic agents. Preliminary studies of rt-PA in various thromboembolic disorders are encouraging. Marketing approval of a t-PA product (rt-PA, Activase, Genentech, Inc.) is expected in the United States by mid-1987. Clinical trials suggest that rt-PA is more effective and as safe as intravenous streptokinase in lysing occlusive coronary-artery thrombi; however, safety and efficacy appear to be dose-related, and further study is needed to determine the optimal dose.
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PMID:Tissue plasminogen activator: a new thrombolytic agent. 311 81

Tissue plasminogen activator (t-PA) and urokinase (u-PA), the major activators of plasminogen, are synthesized and released from endothelial cells. We previously demonstrated specific and functional binding of plasminogen to cultured human umbilical vein endothelial cells (HUVEC). In the present study we found that t-PA could bind to HUVEC. Binding of t-PA to HUVEC was specific, saturable, plasminogen-independent, and did not require lysine binding sites. The t-PA bound in a rapid and reversible manner, involving binding sites of both high (Kd, 28.7 +/- 10.8 pM; Bmax, 3,700 +/- 300) and low (Kd, 18.1 +/- 3.8 nM; Bmax 815,000 +/- 146,000) affinity. t-PA binding was 70% inhibited by a 100-fold molar excess of u-PA. When t-PA was bound to HUVEC, its apparent catalytic efficiency increased by three- or fourfold as measured by plasminogen activation. HUVEC-bound t-PA was active site-protected from its rapidly acting inhibitor: plasminogen activator inhibitor. These results demonstrate that t-PA specifically binds to HUVEC and that such binding preserves catalytic efficiency with respect to plasminogen activation. Therefore, endothelial cells can modulate hemostatic and thrombotic events at the cell surface by providing specific binding sites for activation of plasminogen.
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PMID:Binding of tissue plasminogen activator to cultured human endothelial cells. 311 64

Tissue plasminogen activator (tPA) was covalently linked by disulfide bonds to a monoclonal antibody specific for the amino terminus of the beta chain of fibrin (antibody 59D8). The activity of the tPA-59D8 conjugate was compared with that of tPA, urokinase (UK), and a UK-59D8 conjugate. For lysis of fibrin monomer, tPA was 10 times as potent as UK, whereas both UK-59D8 and tPA-59D8 conjugates were 100 times as potent as UK and 10 times as potent as tPA. Conjugation of tPA or UK to antibody 59D8 produced a 3.2-4.5-fold enhancement in clot lysis in human plasma over that of the respective unconjugated plasminogen activator. However, the UK-59D8 conjugate was only as potent as tPA alone. Antibody-conjugated tPA or UK consumed less fibrinogen, alpha 2-antiplasmin, and plasminogen than did the unconjugated activators, at equipotent fibrinolytic concentrations. Antibody targeting thus appears to increase the concentration of tPA in the vicinity of a fibrin deposit, which thereby leads to enhanced fibrinolysis.
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PMID:Conjugation to an antifibrin monoclonal antibody enhances the fibrinolytic potency of tissue plasminogen activator in vitro. 313 94

The function of fibrinolysis is to dissolve fibrin clots. The agent of fibrinolysis is plasmin, a glycoprotein with gram molecular weight (GMW) of 90,000. Under natural conditions, plasminogen is converted to plasmin by tissue plasminogen activator (TPA). Activation occurs on the fibrin surface, thus confining proteolytic activity to the appropriate site. Tissue plasminogen activator, produced by monoclonal methods, has recently been made available for limited therapeutic use. Currently streptokinase and urokinase are widely used therapeutically to activate plasminogen. These agents cause plasmin to be formed which is free in the circulation as well as bound to fibrin, resulting in proteolysis of circulating plasminogen and clotting factors. Fibrinolytic therapy has proven to be more beneficial than anticoagulation alone for deep vein thrombi and for pulmonary emboli. During therapy, laboratory studies demonstrate reduced concentrations of plasminogen, fibrinogen, and of alpha-2 plasmin inhibitor, and prolongation of activated partial thromboplastin time and thrombin time. Laboratory findings must be correlated with the clinical course. Demonstration of circulating plasmin-antiplasmin complex may be a useful indicator of active fibrinolysis.
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PMID:Fibrinolysis--a review. 623 87

Tissue plasminogen activator (TPA) is a serine protease involved in the fibrinolytic system that dissolves blood clots. The enzyme catalyzes the conversion of a zymogen, plasminogen, to the enzymatically active form, plasmin, by limited proteolysis. In the course of searching for specific activity assays that might be useful in monitoring the purification of TPA, we have developed several coupled photometric assays. In addition, radioactive, agarose-plate, and other activity assays have also been considered and investigated for this purpose (Table 1). We have previously reported the one-step photometric procedure consisting of a thioester, thiobenzyl benzyloxycarbonyl-lysine (Z-Lys-S-Bzl) and fibrinogen-coated plates. It is simpler and more sensitive than the old two-step method without using immobilized fibrinogen. The new assay has been used successfully for protein purification and can be easily adapted to automated processes. Recently, other chromogenic substrates, D-Val-L-Leu-L-Lys-p-nitroanilide (Val-Leu-Lys-pNA) and D-Ile-L-Pro-L-Arg-p-nitroanilide (Ile-Pro-Arg-pNA) were also used in the one-step assay. It is found that TPA activity is greatly enhanced by immobilized fibrinogen and free fibrinogen when either the thioester. Val-Leu-Lys-pNA, or Ile-Pro-Arg-pNA were used in the colorimetric assay (Fig. 1, A-D). Enzyme kinetics studies indicate that the Km for plasminogen assayed on the thioester and fibrinogen-coated plates is 1.5 micrograms per ml, which is substantially lower than that observed in untreated plates (4.8 micrograms per ml). This is not due to the effect of fibrinogen on the second step of the coupled photometric assay because there is no change in the plasmin activity under these conditions (Fig. 1E). Similar results in TPA activation have also been observed, when fibrin-coated plates were used. Free fibrinogen, which is an activator of TPA, has been included in the standard assay mixture. We are able to detect less than 1 ng of TPA activity within a one-hour incubation time at 20 degrees C (Fig. 2A). In the thioester assay, however, high concentrations of reducing agents and nonspecific proteins cause significant background due to the interaction of DTNB with these reagents. 125I-labeled fibrin-coated plates had been extensively used in the past for urokinase and TPA assays. Although the sensitivity of the radioactive procedure is equivalent to that of the thioester photometric method, it appears that the kinetics of the enzyme are not easy to follow nor is the reproducibility great.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Current status of activity assays for tissue plasminogen activator. 644 2

Tissue plasminogen activator (t-PA) in plasma was separated from inhibitors by adsorption on lysine-Sepharose. It was then determined indirectly by measuring the plasmin generated from plasminogen with poly-lysine as stimulator, in a chromogenic, parabolic rate assay. The reaction proceeded with tissue plasminogen activator and plasmin(ogen) adsorbed on the gel, and followed the kinetics described for similar parabolic rate assays in soluble systems. The assay was standardized against melanoma plasminogen activator (m-PA) and had the sensitivity range of 0.001-0.020 IU (4-80 pg). Anti-m-PA IgG quenched the activity generated in plasma on venous occlusion and part of the activity in pre-occlusion plasma. The method was sensitive to purified urokinase. The basic plasma values in resting normal individuals were: mean 0.08, range 0.01-0.26 X 10(3) IU/l (n = 19), and after 20 min of venous occlusion: mean 2.48, range 0.24-4.34 X 10(3) IU/l (n = 10). The assay correlates well with a fibrin plate method, r = 0.96.
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PMID:A sensitive assay for tissue plasminogen activator activity in plasma, using adsorption on lysine-sepharose. 654 74


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