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:3.4.21.68 (tissue plasminogen activator)
11,311 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Complexes between 125I-labeled urokinase-type plasminogen activator (uPA) and plasminogen activator inhibitor type-1 (PAI-1) bound to purified alpha 2-macroglobulin (alpha 2M) receptor (alpha 2MR)/low density lipoprotein receptor-related protein (LRP). No binding was observed when using uPA. The magnitude of uPA.PAI-1 binding was comparable with that of the alpha 2MR-associated protein (alpha 2MRAP). Binding of uPA.PAI-1 was blocked by natural and recombinant alpha 2MRAP, and about 80% inhibited by complexes between tissue-type plasminogen activator (tPA) and PAI-1, and by a monoclonal anti-PAI-1 antibody. In human monocytes, uPA.PAI-1, like uPA and its amino-terminal fragment, bound to the urokinase receptor (uPAR). Degradation of uPAR-bound 125I-uPA.PAI-1 was 3-4-fold enhanced as compared with uncomplexed uPAR-bound uPA. The inhibitor-enhanced uPA degradation was blocked by r alpha 2MRAP and inhibited by polyclonal anti-alpha 2MR/LRP antibodies. This is taken as evidence for mediation of internalization and degradation of uPAR-bound uPA.PAI-1 by alpha 2MR/LRP.
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PMID:Purified alpha 2-macroglobulin receptor/LDL receptor-related protein binds urokinase.plasminogen activator inhibitor type-1 complex. Evidence that the alpha 2-macroglobulin receptor mediates cellular degradation of urokinase receptor-bound complexes. 137 33

We carried out an immunohistochemical study of tissue-type plasminogen activator (PA) and urokinase-type PA, and their inhibitors, PA inhibitor-1 and PA inhibitor-2, using renal biopsy specimens obtained from 86 patients with various forms of glomerulonephritis. The controls were four normal renal tissue specimens. On immunofluorescent observation, granular staining for tissue-type PA was found to be distributed along the glomerular capillary walls. The fluorescence was weak in the normal renal tissue and occasionally intense in the tissues of patients with IgA nephritis, minimal change nephrotic syndrome, and lupus nephritis. PA inhibitor-1 was abundant in the glomerular epithelial cells and scarce in the mesangial area and glomerular capillary lumens of the normal renal tissues. This was confirmed by immunoelectron microscopy using gold staining. The fluorescence of PA inhibitor-1 was weaker in some specimens of nephritic tissues than in the normal renal tissues. Urokinase-type PA and PA inhibitor-2 were negative within the glomeruli in all the specimens. In the glomerulonephritic tissues which were fibrin deposition-positive, tissue-type PA expression in the glomeruli tended to be strong. An association between fibrin deposition and PA inhibitor-1 staining was not clear. These data suggest that expression of tissue-type PA in the glomeruli increases in association with fibrin deposition.
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PMID:Tissue-type plasminogen activator and its inhibitor in human glomerulonephritis. 138 27

In the past 10 years, thrombolytics have become standard therapy for acute myocardial infarction. Although the ability of streptokinase to lyse clot was first recognised in the 1930s, thrombolytic therapy was not used to treat acute myocardial infarction until the early 1980s, when the importance of thrombosis in the pathogenesis of acute infarction was fully recognised. In addition to streptokinase and urokinase, recombinant human tissue plasminogen activator (tPA) and anistreplase were developed and widely used in the 1980s. Saruplase (prourokinase) and BM-06022 (recombinant plasminogen activator) have also undergone human clinical studies. All of these agents are effective at achieving clot lysis and coronary patency. Large, randomised clinical trials have demonstrated that thrombolytic therapy reduces mortality in patients with ST elevation treated within the first 6 to 12 hours of acute infarction, with an approximately 0.5% risk of intracranial haemorrhage. Recent data have more clearly identified which patients benefit from thrombolytic therapy. Efforts have been made to improve the speed of reperfusion, decrease reocclusion, simplify administration and reduce adverse effects. The characteristics of fibrin specificity and more rapid clot lysis with tissue plasminogen activator have not yet been translated into overall clinical benefit compared with the less expensive streptokinase. The lack of close association of improved early patency and improved global left ventricular function with improved survival challenges the very paradigm which led to the use of thrombolytic therapy for acute myocardial infarction. The need for development of additional methods for evaluation of new thrombolytic agents is evident.
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PMID:Thrombolytic therapy for acute myocardial infarction. A review . 138 31

An intravenous infusion of Fluosol enhanced significantly the t-PA thrombolysis of the arterio-venous shunt made by insertion of 125I-fibrin clot in rabbits. The plasma radioactivity released through thrombolysis increased in both time and dose-dependent manner after the administration of t-PA. Fluosol in combination with t-PA increased the plasma radioactivity, compared with the t-PA treatment alone at the corresponding dosage. The coronary blood flow was markedly reduced to almost zero after the thrombin injection into narrowed LCX with a clamp in open-chest dogs. An intravenous infusion of Fluosol or Pluronic F-68 solution at a dose of 15 ml/kg significantly shortened the thrombolysis time by intracoronary infusion of urokinase alone. While, little change in the QTc interval of ECG and the plasma CPK-MB activity was observed in the Fluosol group in combination with urokinase, suggesting a myocardial protective action of Fluosol possibly due to its oxygen carrying effect.
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PMID:Extended use of Fluosol emulsion in acute myocardial ischemia treatment. 139 38

Inflammatory processes are accompanied by extravascular deposition and breakdown of fibrin. We measured fibrinolytic parameters in synovial fluid (SF) and in plasma of 36 patients with rheumatoid arthritis (RA). As a control, SF of 13 patients with blunt knee trauma, and plasma of 17 healthy volunteers were studied. In RA patients, extravascular t-PA mediated plasminogen activation was depressed: mean SF tissue-type plasminogen activator (t-PA:Ag) concentration (2.1 +/- 1.6 ng/ml) was four-fold lower, and plasminogen activator inhibitor (PAI) activity (284 +/- 212%) four-fold higher than the plasma values of the same patients or of healthy donors. In contrast, u-PA related plasminogen activation was strongly enhanced: urokinase-type plasminogen activator (u-PA) antigen (23.1 +/- 12.4 ng/ml) was more than four-fold higher, single-chain u-PA (scu-PA) (5.3 +/- 1.9 ng/ml) three-fold higher than in plasma of the same patients or of healthy donors, and active two-chain u-PA (tcu-PA) was detected in 14 of the 36 SF samples of RA patients. All of these changes in extravascular fibrinolytic parameters correspond with those induced by inflammatory mediators in cell cultures. In joint effusions of patients with a blunt knee trauma, the effects were intermediate: u-PA related parameters showed moderate changes in the same direction as in arthritis; t-PA antigen was also decreased. The only exception was that PAI was not increased. We conclude that the findings in traumatic effusions reflect transient effects as a reaction to trauma. In joint inflammation, the depressed t-PA mediated plasminogen activation, although more than compensated by the enhanced u-PA mediated plasminogen activation, results in protraction of fibrin removal. Besides, the enhanced u-PA activation might lead to proteolytic damage of the cartilage.
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PMID:Depression of tissue-type plasminogen activator and enhancement of urokinase-type plasminogen activator as an expression of local inflammation. 141 64

An exaggerated hemorrhagic syndrome is a characteristic in acute non-lymphoblastic leukemia (ANLL) and it determines the patient's outcome. Disseminated intravascular coagulation as a result of a procoagulant factor release and primary hyperfibrinolysis due to plasminogen activators also released by leukemic cells have been implicated in the development of this syndrome. The aim of this work was to evaluate urokinase-type plasminogen activator (u-PA) and related parameters of the fibrinolytic system in 14 ANLL patients. Our results showed an increased u-PA concentration in ANLL patients compared to controls [2.63 (1.61-4.62) vs. 0.95 (0.77-1.48) ng/ml, p < 0.01]. u-PA levels correlated positively with tissue-type plasminogen activator. The relevance of the enhancement of u-PA in this clinical setting was supported by the fact that it was the only analytical parameter positively correlated with patient mortality (p < 0.05). Though u-PA levels do not seem to be the determining factor in the development of the hemorrhagic syndrome of ANLL patients, a contributory role of this plasminogen activator is suggested from our results.
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PMID:High plasma urokinase-type plasminogen activator levels are present in patients with acute nonlymphoblastic leukemia. 141 64

The activity of plasminogen activators and inhibitors in the synovial fluid and plasma of patients with various forms of chronic arthritis was characterised. Tissue-type plasminogen activator antigen (t-PA:Ag), urokinase-type plasminogen activator antigen (u-PA:Ag), the proenzyme single chain u-PA (scu-PA), and plasminogen activator inhibitor (PAI) were measured in the synovial fluid and plasma of 22 patients with seropositive rheumatoid arthritis (RA), 13 with seronegative RA, and 23 patients with various forms of arthritis. In all patient groups the levels of t-PA:Ag in synovial fluid were lower and the levels of u-PA:Ag and PAI higher than plasma levels. Synovial fluid u-PA was more activated than plasma u-PA. Comparison of the patient groups showed that the largest differences between fibrinolytic parameters in synovial fluid and plasma were present in patients with seropositive RA followed by patients with seronegative RA and patients with various forms of arthritis. This order paralleled the functional and radiological scores of joint destruction in the patient groups studied. The results of this study indicate that suppression of t-PA production and enhancement of u-PA synthesis and activation in arthritic joints are associated with the clinical severity of arthritis.
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PMID:Plasminogen activators in synovial fluid and plasma from patients with arthritis. 141 21

Urokinase-type (uPA) and tissue-type (tPA) plasminogen activators were identified by fibrinolytic autography in the sulcus epithelium of human gingival mucosa but not in the orthokeratinized gingival epithelium. Fibrinolytic activity was present only over blood vessels in frozen sections of oral squamous cell carcinomas, the malignant epithelial cells showing no plasminogen activator activity. Plasminogen activators could not be demonstrated in either the sulcus or gingival epithelium by immunofluorescence, but both uPA and tPA were found in occasional squamous carcinoma cells. Fibrinolytic activity of culture fluids from epithelial explants grown in vitro from human gingival mucosa showed marked variation, but activity was much higher in the culture supernatants than in the cell lysates. Fibrinolytic activity of culture fluids from epithelial explants of squamous cell carcinomas was low both in supernatants and lysates. Zymogram overlays of sodium dodecyl sulphate-polyacrylamide electrophoretic gels from culture supernatants showed that the low fibrinolytic activity of culture supernatants of oral squamous cell carcinomas was due to the associated presence of plasminogen activator inhibitors. The fibrinolytic activity in the zymogram was due predominantly to uPA but some lysis was due also to tPA.
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PMID:Plasminogen activators in normal and malignant oral epithelium in vivo and in vitro. 141 24

The generation of the proteolytic enzyme plasmin from its inactive precursor plasminogen, mediated by so called plasminogen activators, is the essential step in thrombolytic therapy. Plasmin is responsible for the degradation of the insoluble fibrin, the major component of a thrombus, to soluble fibrin degradation products. So far, the use of the more recently developed thrombolytic agents single-chain urokinase-type plasminogen activator (scu-PA) and tissue-type plasminogen activator (t-PA) were disappointing, mainly due to some of their negative properties in vivo, i.e., rapid inhibition and/or hepatic clearance. Besides some background information on the haemostatic balance; t-PA and scu-PA structure; and mechanisms of action, we here review some reported attempts to improve on these agents for thrombolytic therapy following various strategies. One of the more potential strategies, antibody-targeted thrombolytic therapy using bispecific monoclonal antibodies, is discussed somewhat more extensively, as are the several procedures that can be followed for bispecific antibody preparation.
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PMID:The potential improvement of thrombolytic therapy by targeting with bispecific monoclonal antibodies: why they are used and how they are made. 141 66

The earliest tissue plasminogen activator (t-PA) preparations prepared from melanoma cells were expressed in urinary-type plasminogen activator (u-PA) units of activity using the u-PA International Standard (66/46). This report describes a comparison between u-PA and t-PA units by various types of fibrin plate procedure using both human and bovine fibrin. Within the biometric limits of this procedure it was found that the potency ratio of u-PA/t-PA was 3.5 (human fibrin), 5.29 (enriched bovine fibrin) and 4.6 (crude bovine fibrin). Specific activity figures of approximately 100,000 IU/mg for pure t-PA using the urokinase standard (66/46) would convert to approximately 350,000-530,000 IU/mg using the International Standards for t-PA (83/517 and 87/670). This latter figure is compatible with the reported specific activity for purified preparations of recombinant t-PA.
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PMID:A comparison of the plasminogen activator activity units of urinary-type plasminogen activator (u-PA) and tissue-type plasminogen activator (t-PA). 142 Aug 25


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