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)

Glucocorticoids exert potent inhibitory effects on bone formation. We have previously shown that glucocorticoids suppress plasminogen activator (PA) activity in normal and malignant rat osteoblasts. To clarify the mechanism of this suppression, we investigated the effects of dexamethasone on PA inhibitor-1 (PAI-1), tissue-type PA (tPA), and urokinase-type PA (uPA) expression and also on PAI-1 protein and PA activity in both normal rat calvarial osteoblasts and a clonal osteogenic sarcoma cell line, UMR 106-01. Dexamethasone increased PAI-1 mRNA and protein in both cell types. The increase in PAI-1 protein and the decrease in PA activity were obtained over the same concentration range, with a half-maximally effective concentration of dexamethasone of about 10(-9) M. The increase in PAI-1 mRNA caused by dexamethasone was retained with cycloheximide treatment, but abolished with actinomycin-D. Dexamethasone had no effect on tPA or uPA mRNA in either cell type. The glucocorticoid antagonist RU 486 prevented the effects of dexamethasone on PA activity and PAI-1 protein. Dihydrotestosterone, progesterone, and 17 beta-estradiol did not influence PA activity or PAI-1 formation. Although tPA and uPA protein could not be measured, these results suggest that glucocorticoids suppress PA activity predominantly by increasing PAI-1 synthesis in rat osteoblasts. Suppression of PA activity through actions on PAI-1 formation by glucocorticoids could contribute to the mechanisms by which glucocorticoids inhibit bone formation.
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PMID:Glucocorticoid regulation of plasminogen activator inhibitor-1 messenger ribonucleic acid and protein in normal and malignant rat osteoblasts. 173 26

Plasminogen activation on the cell surface is regulated by a variety of modulators which balance surface-bound plasminogen activators (PAs) and plasminogen activator inhibitors (PAIs). In this study, we developed as assay system to assess modulation of cell-associated plasminogen activation. Plasmin generation by endogenous plasminogen activators was measured with a combination of exogenously added plasminogen and a chromogenic substrate, S-2251, in the presence of living cells. A cell surface PA activity was quantitated by adopting a rate of plasmin generation. We used HT-1080, a human fibrosarcoma cell line, as representative of cells which have both PAs and PAIs on their cell surface. A basal level of cell surface PA activity was specifically reduced by anti-urokinase-type PA IgG and enhanced by anti-PAI-1 IgG, suggesting that the basal level is determined by a balance between uPA and PAI-1 on the cell surface. We examined effects of dexamethasone and thrombin on cell surface PA activity in the assay system. Dexamethasone appeared to suppress the cell surface PA activity by enhancing de novo synthesis of PAI-1, whereas thrombin suppressed it by inactivating single-chain urokinase-type plasminogen activators. These results indicate that our assay system can be adapted for the screening of various types of PA modulators.
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PMID:An assay system for the modulators of plasminogen activation on the cell surface. 189 67

After incubation of confluent monolayer cultures of human HT-1080 fibrosarcoma cells with purified native human plasminogen in plasminogen-depleted serum-containing medium, bound plasmin activity could be specifically eluted from the cells with tranexamic acid, an analogue of lysine. Dexamethasone reduced the amount of recoverable bound plasmin activity in a dose-dependent manner. Dexamethasone was also found to induce a time- and dose-dependent decrease in the ability of the cells to bind added plasmin. Untreated HT-1080 cells bound added plasmin with a high capacity (600,000 molecules bound per cell), and this decreased to an undetectable level after treatment with 100 nM dexamethasone. The kinetics of the loss of plasmin binding by the dexamethasone-treated sarcoma cells, a clear decrease after 4 h, correlated with those for the loss of cell-bound urokinase (u-PA) activity. Plasmin was not, however, bound to the active site of u-PA: an anti-catalytic monoclonal antibody to u-PA had no effect on plasmin binding. Other glucocorticoids, such as hydrocortisone and corticosterone, had a similar effect to dexamethasone on plasmin binding to HT-1080 cells. The effect of glucocorticoids on the plasmin receptor seemed to occur at least partly via a decrease in the affinity for plasmin, since the Kd for plasmin with untreated cells was 5.4 x 10(-9) M, and with cells treated with 5 nM dexamethasone, the Kd value for plasmin was 1.2 x 10(-7) M. These results show that glucocorticoids induce down-regulation of plasmin receptors on the surface of HT-1080 cells: a novel mechanism, in addition to the known effects of glucocorticoids on u-PA and PA inhibitors, by which human tumor cells may be disarmed of their pericellular proteolytic activity.
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PMID:Down-regulation of plasmin receptors on human sarcoma cells by glucocorticoids. 253 25

Human blood monocytes in culture differentiate to macrophagelike cells within 1 week. Coinciding with this morphological transition the cells started releasing increasing amounts of the serine proteinase plasminogen activator (PA; Mr 56,000) of the urokinase (u-PA) type and the proteinase inhibitor alpha-2-macroglobulin (alpha 2M). Unlike the cell-associated PA activity, which was also readily detected in fresh monocytes, the activity secreted into the serum-free culture medium could be measured only after treatment of the samples with sodium dodecyl sulphate. Heat or acid treatment of the medium was not sufficient to reveal the PA activity, suggesting that, apart from alpha 2M, another PA-inhibiting substance was present in the culture medium. The inhibitor (Mr 65,000) was found to be synthesized by macrophages and specifically inhibited u-PA activity but not tissue-type PA (t-PA) or plasmin activity. Dexamethasone decreased the secretion of PA by differentiated macrophages without affecting the production of alpha 2M or the PA inhibitor. Dexamethasone also inhibited the morphological differentiation of the cells when added to the monocyte-phase cells.
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PMID:Urokinase-type plasminogen activator and its inhibitor secreted by cultured human monocyte-macrophages. 257 31

P388D1 is a murine macrophage cell line which spontaneously secretes plasminogen activator (PA; activated function) and lysozyme (LYS; constitutive function). Compounds which decrease PA secretion without affecting LYS secretion have potential as "down-regulators" of macrophage function and, hence, of the immune system. Glucocorticoids (e.g., dexamethasone, IC50 less than 0.01 microM) and auranofin (IC50 = 1 microM) are positive in this model. In contrast, cyclooxygenase inhibitors (indomethacin, ibuprofen and piroxicam, all at 1 microM) boost PA secretion; lipoxygenase inhibitors (REV-5901, NDGA and piriprost, all at 10 microM) have little or no effect. Dexamethasone, but not auranofin, induces a urokinase-inhibitory activity which elutes between 0.13 and 0.19 M NaCl upon anion exchange HPLC (TSK-DEAE-5-PW). Fibrin overlay following SDS-PAGE of the HPLC peak reveals a urokinase-inhibitory band at approximately 90 Kd.
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PMID:Pharmacological modulation of plasminogen activator secretion by P388D1 cell line. 312 May 14

The plasminogen activators of surgically excised prostate cancers (43 specimens) and benign prostatic hyperplasias (33 specimens) were extracted with an acetate:arginine:detergent buffer, and the activities were quantitated with azocaseinolytic tests. Immunoinhibition with anti-urokinase antibody served to distinguish between activator types. The mean activator activities (total; urokinase type; and nonurokinase type) of the neoplastic group were about 2 times higher (p less than 0.05) than that of the benign prostatic hyperplasia tissues. Each group had more non-urokinase-type activator activity relative to urokinase type. Studies with autopsy tissues (13 specimens) revealed that different anatomical compartments of the prostate contain about the same mean activator activity, indicating that the site of origin of the disease did not influence the results. Immunoperoxidase staining for urokinase revealed its presence in the tumor cells and, to a lesser extent, in the epithelial elements of some benign ducts and glands but not in the connective tissue. The secretion and synthesis of activator activities were monitored in short-term (approximately 120 hr) organ cultures (serum-free media) of 21 neoplastic tissues. On the average, about 12 times more activity (approximately 80% as urokinase type) was recovered in the media and postculture tissue extracts than was present in preculture tissues. Similar results were observed with 10 benign prostatic hyperplasia specimens. Wide individual variations were present in both groups (1.5 to 322 times more activity than the initial values). Except for one case, urokinase-type activity was secreted continuously, while nonurokinase was secreted only initially in quantities similar to that present in preculture tissue extracts. After culture, tissue explants contained higher quantities of both activator activities than were present initially. Dexamethasone (10 or 100 microM) decreased secretion and/or synthesis of activators by about 70%. This human organ culture model appears to be a reproducible system for individual tissues and may prove to be a valuable tool for further studies.
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PMID:Plasminogen activator content and secretion in explants of neoplastic and benign human prostate tissues. 619 64

Dexamethasone induces an inhibitor of plasminogen-dependent fibrinolysis in rat hepatoma (HTC) cells. The specificity of the inhibitor for urokinase and plasmin was investigated using both fibrinolytic and esterolytic assays. Urokinase, but not plasmin, was inhibited by serum-free conditioned medium from cells incubated with 0.1 microM dexamethasone. The specificity of the inhibitor for plasminogen activator was demonstrated directly by the inhibition of the urokinase-catalyzed activation of 125I-plasminogen to 125I-plasmin. The inhibitory activity was stable to pH 3 for 2 h at 37 degrees C, a condition which inactivated fibrinolytic inhibitors in serum, suggesting a cellular origin for the inhibitor. Further evidence for the cellular origin was the constant daily production of inhibitor throughout a 4-day incubation with dexamethasone in serum-free medium. SF HTC-H1 cells, selected for their ability to grow in serum-free medium (Thompson, E. B., Anderson, C. U., and Lippman, M. E. (1975) J. Cell Physiol. 86, 403-412), were grown for 76 days (at least 30 generations) in the presence or absence of serum; dexamethasone induced equivalent amounts of inhibitory activity in cells which had been grown under both conditions. We conclude that the dexamethasone-induced inhibitor from HTC cells is a cellular product which is specific for the inhibition of plasminogen activation and which differs from other reported fibrinolytic inhibitors.
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PMID:The dexamethasone-induced inhibitor of fibrinolytic activity in hepatoma cells. A cellular product which specifically inhibits plasminogen activation. 646 54

The effect of oral administration of dexamethasone to rats on the haemostatic system was investigated. Dexamethasone was given once daily for 5 consecutive days. Plasma PAI-1 antigen levels were increased dose dependently (up to 210 +/- 29% of control values at a dose of 3 mg/kg) whereas no significant effects on plasma t-PA antigen levels were observed (131 +/- 6% compared with control values). In addition, treatment with 1 mg/kg dexamethasone decreased t-PA activity in tissue extracts of the aorta, heart and liver (65%, 28% and 58%, respectively) whereas tissue u-PA activity was not influenced. In vivo fibrinolytic activity was significantly decreased after dexamethasone treatment at a dose of 3 mg/kg but not at a dose of 1 mg/kg. The effect of dexamethasone on in vivo platelet aggregation was studied in an arterial thrombosis model. Dexamethasone treatment resulted in a two-fold decrease in arterial thrombosis at a dose of 0.1 mg/kg. At a dose of 1 mg/kg a less pronounced but significant decrease was observed. We conclude that in haemostasis the primary effect of dexamethasone treatment is an inhibition of arterial thrombosis by inhibition of platelet aggregation which is neutralized at higher doses by a decreased fibrinolytic activity.
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PMID:Dexamethasone affects platelet aggregation and fibrinolytic activity in rats at different doses which is reflected by their effect on arterial thrombosis. 805 58

Macrophages in the tissues have been shown to express receptor for urokinase-type plasminogen activator (uPAR) on their cell surface which plays an important role in cell invasion and attachment. We examined the effects of inflammatory mediators on the expression of uPAR employing U937 cells which have monocyte/macrophage-like characteristics. U937 cells were incubated with various mediators such as interleukins (IL), tumor necrosis factors (TNF), dexamethasone, thrombin, fibrin fragment D, bradykinin, complement C5a, and components of the extracellular matrix. The uPAR expression on the cell surface was then analyzed by radio-ligand binding assay using 125I-scuPA. The strongest enhancement of uPAR was observed in the cells stimulated by TNF alpha and TNF beta. IL-1 beta, IL-6, and C5a also increased the uPA binding sites with various patterns of affinity change. Dexamethasone decreased the uPA binding sites without changing the affinity. Fibrin fragment D and IL-3 reduced the affinity without changing the number of receptors. These findings suggest that the expression of uPAR in inflammatory cells could be modulated by various inflammatory mediators.
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PMID:Modulation of the receptor for urokinase-type plasminogen activator in macrophage-like U937 cells by inflammatory mediators. 879 83

The expression of plasminogen activator (PA), a serine proteinase involved in the degradation of extracellular matrix proteins, has been investigated in 3T3 fibroblasts after in vitro exposure to sulphur mustard (SM). Expression of the cell-associated enzyme has been assessed with a synthetic substrate assay and at the mRNA level. Twenty-four hours after 100 microM SM, cell viability (monitored by MTT assay) was not significantly affected, but protein synthesis (tritiated leucine incorporation) was reduced to < 20% of the control value. PA activity was significantly increased compared to control cells with a 20-fold increase after 24 h. This up-regulation was independent of the cell density, occurred maximally between days 1 and 4 and persisted for at least 6 days after exposure. Lower concentrations of SM (< or = 10 microM) did not significantly affect PA activity. Northern blotting experiments revealed an increased expression of urokinase (u-PA) transcripts in cells treated with 100 microM SM, with a peak at 10 h after exposure. Conditioned culture medium from cell cultures treated with 100 microM SM did not affect the expression of PA activity in naive or SM-treated cultures. Thiodiglycol (100 microM), the main metabolite of SM, did not influence the expression of PA in the same system. Different compounds were tested for modulation of the PA upregulation after SM exposure. Nicotinamide (5 mM), vitamin D3 (10(-10)M), extracellular calcium (2 mM) or EGTA (5 mM) had no effect. Ryanodine (10 microM) amplified the PA up-regulation by a factor of 2 and vanadate (500 microM) reduced it by approximately 50%. Dexamethasone (1 microM) added directly after SM treatment almost completely prevented the induction of PA at both the protein and mRNA levels. Overall these results demonstrate an up-regulation of urokinase in 3T3 fibroblasts after treatment with SM, which is possibly mediated by intracellular calcium mobilization. Further studies are needed to identify the significance of this proteolytic response in the pathogenesis of blistering and/or DNA repair mechanisms.
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PMID:Effect of sulphur mustard on the expression of urokinase in cultured 3T3 fibroblasts. 910 Oct 41

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