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)

We have characterized a transcriptional enhancer of the human urokinase-type plasminogen activator (uPA) gene and found a regulatory element required for co-operation between a PEA3--AP-1 element and an AP-1 site in the enhancer. We designated this regulatory element co-operation mediator (COM). Both the PEA3--AP-1 element, the AP-1 site and the COM are required for efficient phorbol ester induction of transcription from the uPA promoter in the HepG2 hepatoma cell line. We show that the COM is also required for co-operation between the PEA3--AP-1 element and a glucocorticoid response element, both in the presence or absence of TPA, indicating that the COM is generally capable of mediating synergism between inducible enhancer elements. The COM contains multiple overlapping binding sites for nuclear proteins, designated uPA enhancer factors 1-4 (UEF-1-4). We have identified putative binding sites for UEF-1, -2 and -3. The UEF-1 and -3 sites in the uPA enhancer are highly conserved between species. We demonstrate the binding of UEF-3 to the NIP element, a previously characterized regulatory element in the human interleukin-3 and stromelysin promoters, suggesting that this factor plays a role in regulation of a variety of genes.
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PMID:A regulatory element that mediates co-operation between a PEA3-AP-1 element and an AP-1 site is required for phorbol ester induction of urokinase enhancer activity in HepG2 hepatoma cells. 133 May 39

1. Extracts with physiological saline solution were obtained from about 20 species of invertebrates and seaweed. Tosyl-L-Arg-MeOH hydrolysing and fibrin plate lytic activity were detected in the invertebrates Stichopus japonicus, Crassost gigas, Tapes japonica, and Kintai-gai as well as the seaweed Codiales codium. 2. These activities were all labile against heat (at 65 degrees C for 1 hr). Except for the extract from Stichopus japonicus, lytic activities against fibrin plates with and without plasminogen were similar. 3. The extract from S. japonicus showed plasminogen activating potency as well as the existence of urokinase (UK) activity enhancing factor. 4. On the other hand, the extract of the seaweed Hizikia fusiformis showed a strong UK inhibiting activity. 5. A fraction of fibrinolytic enzyme was obtained from the extract of S. japonicus by absorption to the celite affinity chromatography. It was orally administered to rabbits at a dosage of 40 mg/kg/day. 6. Fibrinolytic activity was determined periodically on the eugloblin fraction of plasma samples collected from these animals. 7. As compared with the pretreatment value, the activity increased about 2 times (P less than 0.01) and 3 times (P less than 0.005) after 4 and 8 weeks, respectively, of the treatment. 8. After 8 weeks of treatment, the kidney of treated rabbits was extracted with 2 M KCl. The activity of tissue plasminogen activator (free-type TPA) was revealed to be enhanced significantly (P less than 0.001) in the extracts. 9. The fibrinolytic enzyme increased in the blood was recognized by zymography to be mainly the UK type plasminogen activator with mol. wt of 53,000.
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PMID:Fibrinolysis relating substances in marine creatures. 152 24

The signal transduction pathways of urokinase (u-PA) in A431 cells, a human epidermoid carcinoma cell line, were studied using the inducers EGF and TPA. Based on the following observations, we conclude that the two pathways are different: (1) The effects are additive; (2) EGF induction of u-PA was not compromised either by down-regulation of PKC or selective inhibition of the same by H7; (3) 8-Br-cAMP has no effect by itself; however, it inhibits the EGF effect and doubles the TPA induction of u-PA; (4) after EGF-induced tyrosine phosphorylations are completed, addition of TPA can still induce u-PA, an effect that can be blocked by the addition of the tyrosine phosphorylation inhibitor, genistein, indicating that the two agents induce different tyrosine phosphorylation; (5) in 2-dimensional electrophoresis of 32P-labeled cell lysates, inducer-specific differences in the intensity of spots can be observed. Some of the spots weakened by genistein (tyrosine phosphorylations) are different, depending on the inducer used.
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PMID:Epidermal growth factor and 12-tetradecanoyl phorbol 13-acetate induction of urokinase in A431 cells. 179 95

The lipoprotein Lp(a) is a cholesterol-rich plasma lipoprotein from the density fraction 1.06-1.21 g/ml. Numerous clinical and epidemiological studies have revealed a strong correlation between high plasma Lp(a) concentrations and the incidence of coronary heart disease. Furthermore, the Lp(a)-specific protein apo(a) has been detected in atherosclerotic lesions. Lp(a) is essentially an LDL-like lipoprotein particle to which the glycoprotein apo(a) is attached through a disulfide bridge with apo B-100. The elucidation of the amino acid sequence of apo(a) revealed a high homology to specific regions of human plasminogen. The latter consists of five tandemly arranged kringle domains followed by a C-terminal trypsin-like protease region. Apo(a) is composed of a large number of kringle domains, all highly homologous to kringle IV of plasminogen, followed by a kringle V-like protease-domain. The lipoprotein Lp(a), therefore, combines structural elements of both the lipoprotein and coagulation systems. In contrast to plasminogen, Lp(a) cannot be activated by TPA, streptokinase or urokinase to give proteolytic activity. However, in vitro studies have shown that Lp(a) can both inhibit endothelial cell induced fibrinolysis and can also bind to plasmin modified fibrin. These findings provide a pathobiochemical basis for the involvement of Lp(a) in atherosclerotic and thrombotic processes. The function of this lipoprotein is, however, still unclear.
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PMID:[Lipoprotein(a): characteristics of a special lipoprotein and its potential clinical significance]. 214 32

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

A simple, sensitive and specific assay for plasminogen activators is described. The assay utilizes fluorescein-labeled fibrinogen or fibrin at low concentrations, and enables simultaneous evaluation of the plasminogen and fibrin dependence of the reaction, that is, discrimination of tissue-type and urokinase-type plasminogen activators, and non-specific proteolysis. Addition of antisera verify identification of the activator species. The assay reagent contains plasminogen and fluorescein-labeled fibrinogen, to which is added the specimen and then then thrombin, either at the initiation or the termination of the reaction. Supernatant fluorescence is proportional to plasminogen activator concentration. With a four-hour incubation, 1 milliunit (14 pg) of tissue (melanoma) plasminogen activator (TPA) or 2 milliunit (36 pg) of urokinase (UK) may be detected.
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PMID:A sensitive and specific assay for plasminogen activators. 403 78

A cytokine that inhibits fibrinolysis has been detected in the serum-free culture medium of guinea pig and hamster fibroblasts. This proteinase inhibitor was also present in Triton X-100 extracts of guinea pig cells. It was stable at pH 3.0 for 2 hr and was produced by cells rather than assimilated from serum in the culture medium as evidenced by: (a) an apparent molecular size (less than 45 kilodaltons) less than that of the principal serum-derived proteinase inhibitors; (b) its continued secretion after several passages of the cells in serum-free medium; and (c) the lack of inhibitory activity in the medium of mitomycin C-treated cells. The cytokine inhibited the proteinase activity of human urokinase, soluble TPA-stimulated guinea pig plasminogen activator, and the cell-associated plasminogen activator of tumorigenic guinea pig cells. Soluble plasminogen activator appeared to be inhibited to a greater degree than the cell-associated enzyme. The fluorogenic substrate (7-(N-carbobenzoxyglycylglycylargininamido)-4-methylcoumarin was used in a direct assay of proteinase activity and demonstrated that the cytokine inhibited both plasminogen activator and plasmin, the two proteinases of the fibrinolytic cascade. Tumorigenic guinea pig and hamster fibroblasts as well as nontransformed guinea pig fibroblasts were found to produce the inhibitory cytokine, and the amount of inhibitor secreted was independent of the tumorigenic potential of the cells. Production of the inhibitor by normal cells may be related to contact inhibition of growth, and this cytokine may contribute to the fine regulation of local proteolysis within tissues.
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PMID:Secretion of proteinase inhibitors by tumorigenic and nontumorigenic guinea pig and Syrian hamster fibroblasts: evidence for autocrine regulation of local proteolysis. 642 73

Streptokinase remains the most widely used agent worldwide, largely because it is the cheapest. Because of cost considerations when the incremental cost of the use of accelerated TPA exceeds $35,000 (US) per life year added, and because an iatrogenically induced stroke in a patient who is otherwise likely to have a good outcome is unacceptable, streptokinase may be used in patients with small to moderate-sized infarctions and those aged less than 60 years. Streptokinase is the agent of choice in patients who have an increased risk of stroke and may be used in patients presenting after 6 hours. Streptokinase also may have a role in patients with cardiogenic shock. Administration of accelerated TPA is the treatment of choice in patients at high risk such as those with large anterior infarctions, the elderly, and patients with bypass grafts, and it is an alternative to urokinase when streptokinase has been administered previously. The most important approach is to treat as many patients as early as possible with thrombolytic therapy regardless of which agent is used. Thrombolytic therapy still is widely underused. More lives will be saved, regardless of which thrombolytic drug is used, by encouraging patients to present early, improving on the "door-to-needle" time, and treating more patients with a therapy that can save thousands of lives worldwide.
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PMID:Selecting a thrombolytic agent. 758 72

Increased expression of plasminogen activator inhibitor-1 (PAI-1) has been demonstrated in the human atherosclerotic vessel wall and may contribute to the impaired plasma fibrinolytic capacity in patients at high risk of atherothrombotic events. In addition, the mural PA/plasmin system may have important pathobiologic functions during atherogenesis. We quantitatively analyzed PAs of the tissue type (TPA) and urokinase type (UPA), PAIs, and plasminogen in protein extracts from different layers of human aorta in relation to the presence and severity of atherosclerotic lesions. In comparison with normal control vessels, intimal and neointimal TPA concentrations were reduced in atherosclerotic aortas except in the necrotic core areas of advanced plaques, where TPA was mainly complexed to PAI-1 in extracellular matrix deposits. In the media, TPA antigen was higher in lesional segments and closely associated with smooth muscle cells. UPA antigen was increased in the intima of atherosclerotic lesions and colocalized with tissue-infiltrating macrophages and neointimal smooth muscle cells. By spectrophotometric assay, neither TPA nor UPA activity could be detected in intimal or medial extracts. PAI-1 concentrations increased significantly in the intima of atherosclerotic segments compared with adjacent uninvolved areas or control aortas. The immunohistochemical distribution of PAI-1 was similar to that observed for TPA. A large excess of PAI-1 over PA concentrations, particularly in the intimal layer, characterizes atherosclerotic lesions of the human aorta and suggests that PA action is locally confined and counterbalanced by enhanced PAI expression and accumulation.
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PMID:Quantification of plasminogen activators and their inhibitors in the aortic vessel wall in relation to the presence and severity of atherosclerotic disease. 760 Jan 21

The effects of coronary thrombolytic therapy with urokinase on the intrinsic hemostatic and fibrinolytic states were investigated by determining several markers for hemostatic and fibrinolytic activities in 6 patients with acute myocardial infarction who underwent coronary thrombolysis with urokinase. The markers for hemostasis and fibrinolysis were: markers for plasmin generation [alpha 2-plasmin inhibitor (alpha 2-PI), plasminogen, plasmin alpha 2-PI complex (PIC)]; markers for fibrinolysis [fibrin/fibrinogen degradation products-E fragment (FDP-E), FDP D-D dimer (D dimer), fibrinogen]; markers for hemostatic activity (prothrombin time (PT), antithrombin III (AT-III), protein C); markers for thrombin generation [thrombin antithrombin III complex (TAT)]; markers for intrinsic fibrinolytic activity [tissue plasminogen activator plasminogen activator inhibitor complex (TPA PAI complex)]. These markers were measured before, at 1 to 2 hours intervals during first 6 hours, daily during the next 3 days, and subsequently on the 7th and the 14th day after urokinase therapy. Fibrinolysis (determined by increased D dimer) occurred only when alpha 2-PI became unmeasurable with 96 x 10(4) or more units of urokinase administration, then persisted for more than 2 hours. TAT increased from 13.1 +/- 15.4 to 70.8 +/- 65.8 ng/ml soon after fibrinolysis occurred, indicating that thrombin generation occurred at the same time as fibrinolysis. The TPA PAI complex level before urokinase administration (26.4 +/- 6.4 ng/ml) was greater than the normal upper limit, indicating increased intrinsic fibrinolytic activity, then decreased after urokinase administration. These findings suggested that urokinase administration might affect the intrinsic fibrinolytic activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Serial changes in hemostatic and fibrinolytic states induced by coronary thrombolytic therapy]. 806 82

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