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)

The human sarcoma cell line HT1080 was found, by in situ hybridization, to consist of cells expressing various levels of urokinase (uPA) and tissue type (tPA) plasminogen activator (PA) suggesting clonal variation of expression of these genes. Colonies originating from single HT1080 cells were, therefore, established and screened for PA activity using a fibrin agarose overlay. Colonies inducing lysis (clone C+ and H+) or no lysis (clones B- and M-) were isolated and tested for mRNA levels of uPA, tPA, uPA receptor (uPAR) and the 3 PA inhibitors (PAI), PAI-1, PAI-2 and protease-nexin I. The different clones revealed considerable variation of expression of the different PA and PAI genes, with lysis-inducing clones expressing mainly the PA genes, whereas non-lysing clones demonstrated higher expression of the PAI genes. Amplification or loss of specific genes was excluded by Southern blotting. The protein levels of cellular and secreted PA and PAI determined by ELISA and Western blots demonstrated a pattern similar to that observed for PA and PAI mRNA concentrations, suggesting clonal differences either on the level of transcription or in RNA processing and/or stability. Due to complex interactions between PA and PAI, neither mRNA nor protein levels of the different genes were predictive for the amount of functional PA activity present in the supernatant or on the cell surface of the different clones. Receptor-bound uPA activity was found to be considerably higher in lysis-inducing than in non-lysing clones and the activity was dependent on neutralization by PAI-1 rather than on the level of uPAR mRNA.
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PMID:Clonal variation of expression of the genes coding for plasminogen activators, their inhibitors and the urokinase receptor in HT1080 sarcoma cells. 132 52

The extracellular protease urokinase is known to be crucially involved in morphogenesis, tissue repair and tumor invasion by mediating matrix degradation and cell migration. Hepatocyte growth factor/scatter factor (HGF/SF) is a secretory product of stromal fibroblasts, sharing structural motifs with enzymes of the blood clotting cascade, including a zymogen cleavage site. HGF/SF promotes motility, invasion and growth of epithelial and endothelial cells. Here we show that HGF/SF is secreted as a single-chain biologically inactive precursor (pro-HGF/SF), mostly found in a matrix-associated form. Maturation of the precursor into the active alpha beta heterodimer takes place in the extracellular environment and results from a serum-dependent proteolytic cleavage. In vitro, pro-HGF/SF was cleaved at a single site by nanomolar concentrations of pure urokinase, generating the active mature HGF/SF heterodimer. This cleavage was prevented by specific urokinase inhibitors, such as plasminogen activator inhibitor type-1 and protease nexin-1, and by antibodies directed against the urokinase catalytic domain. Addition of these inhibitors to HGF/SF responsive cells prevented activation of the HGF/SF precursor. These data show that urokinase acts as a pro-HGF/SF convertase, and suggest that some of the growth and invasive cellular responses mediated by this enzyme may involve activation of HGF/SF.
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PMID:Extracellular proteolytic cleavage by urokinase is required for activation of hepatocyte growth factor/scatter factor. 133 58

Protease nexin I (PNI), a 43,000- to 50,000-dalton glycoprotein, is a potent thrombin and urokinase inhibitor produced by many mammalian cells, including human glia, in tissue culture. PNI is a member of the growing superfamily of serine protease inhibitors now known as serpins, but, unlike many others of this family, it has not yet been detected in normal human plasma. Of interest to neurobiology and neurologic disease, PNI is identical to a glia-derived neurite-promoting factor, glia-derived nexin (GDN). Antibody to PNI stains the periphery of senile amyloid plaques in brain tissue from patients with Alzheimer's disease (AD), along with another serpin, alpha 1-antichymotrypsin (alpha 1-ACT). A soluble form of the beta-amyloid precursor protein (beta APP), containing a Kunitz-type trypsin inhibitor domain, the beta APP751 form, is identical to protease nexin II (PNII), a 100,000-dalton serine protease inhibitor present in a number of tissues besides the brain. PNII/beta APP is also found in normal and AD CSF. We found a 47,000-dalton PNI, a thrombin- and urokinase-inhibiting serpin, in normal human CSF by Western blotting using a monospecific antibody. We also demonstrated biologically active PNI capable of forming complexes with serine proteases 125I-urokinase or 125I-thrombin.
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PMID:Protease nexin I, thrombin- and urokinase-inhibiting serpin, concentrated in normal human cerebrospinal fluid. 162 Mar 46

When cultured astroglia are treated with agents that elevate intracellular cyclic AMP, they become process-bearing stellate cells and resemble differentiated astrocytes in vivo. Thrombin rapidly reversed the stellation induced by dibutyryl cyclic AMP, forskolin, or isoproterenol in cultured rat astrocytes; half-maximal and maximal effects occurred at 0.5 and 8 pM, respectively. The proteolytic activity of thrombin was required for stellation reversal, as thrombin derivatized at its catalytic site serine with a diisopropylphospho group was inactive. Two thrombin inhibitors, protease nexin-1 and hirudin, blocked and reversed the effect of thrombin. The stellation reversal effect of thrombin was specific, as 300-1,000-fold higher concentrations of other serine proteinases, including plasmin, urokinase, trypsin, and T cell serine proteinase-1, were ineffective. Thrombin is a mitogen for astrocytes at concentrations in excess of 30 pM. Thrombin increased both cell number and ornithine decarboxylase activity, an early marker for mitogenic stimulation, in astrocyte cultures. The lowest thrombin concentrations that completely reversed astrocyte stellation, however, did not increase ornithine decarboxylase activity. Moreover, several other mitogens for astrocytes did not reverse dibutyryl cyclic AMP-induced stellation. Thus, the stellation reversal effect of thrombin is distinct from the mitogenic response.
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PMID:Reciprocal modulation of astrocyte stellation by thrombin and protease nexin-1. 169 Dec 80

Interaction of vitronectin with glia-derived nexin (GDN), thrombin, and the complex GDN-thrombin was demonstrated in direct binding assays that indicated the formation of binary and ternary complexes. The concentration of vitronectin necessary to obtain 50% saturation of the immobilized GDN-thrombin complex binding sites (EC50) was about 1 nM. Under similar experimental conditions, the EC50 of vitronectin for the immobilized antithrombin-III-thrombin complex was about fivefold higher. A tight complex was also formed between vitronectin and immobilized GDN (EC50 approximately 1.5 nM) but when vitronectin was immobilized, GDN displayed a reduced affinity for vitronectin (EC50 approximately 10 nM). These results suggest differences between the immobilized and free conformations of GDN and/or vitronectin. In contrast, vitronectin displayed negligible affinity for antithrombin III. Biotinylated GDN was used to characterize further the binding of GDN or the GDN-thrombin complex to vitronectin. The interaction of the biotinylated GDN-thrombin complex with immobilized vitronectin (EC50 approximately 2 nM) was completely blocked by nonbiotinylated complexes of thrombin with either GDN or antithrombin III, whereas free GDN, free thrombin and the GDN-trypsin complex were only weak competitors. Active-site-blocked urokinase and the complex GDN-urokinase also strongly competed for binding of the biotinylated GDN-thrombin complex to vitronectin. Binding of biotinylated GDN to immobilized vitronectin was specific, saturable and was competed with decreasing efficiency by the GDN-thrombin complex, free GDN and free antithrombin III. These interactions between the adhesive component vitronectin and the serine protease inhibitor GDN may relate to localized control of thrombin and/or urokinase action at certain extravascular sites. These results are discussed in terms of binding sites for vitronectin on GDN, thrombin, and the GDN-thrombin complex.
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PMID:Specific interaction of vitronectin with the cell-secreted protease inhibitor glia-derived nexin and its thrombin complex. 169 27

The functional operation of the cell surface pro-u-PA and plasminogen activating system has previously been shown to depend on the assembly of u-PA receptors, plasminogen binding sites, and their respective ligands at the focal adhesions of cell extensions. We now show that additional factors operate that affect the persistence of functional activity and that evidently involve charge interactions mediated by polyanions, such as those found in the cell surface proteoglycans. Heparin-like compounds and protamine were identified as fast-acting stimulators of cell surface plasminogen activation. Heparin stabilized surface u-PA activity during plasminogen activation, and we propose that a heparin binding site exists in the kringle structure of u-PA. Heparin at 40 micrograms/ml could reduce u-PA loss to only 20% compared with 60% on control cells activating plasminogen. Protamine (25 micrograms/ml) exerted a strong stimulatory effect on the level of generated bound plasmin and notably prolonged the persistence of this activity, so that 100 minutes after addition of plasminogen the level of plasmin on protamine-treated cells was five times higher than on control-treated cells. The effect of protamine on plasmin clearance suggests that an unknown plasmin inhibitor may be produced by rhabdomyosarcoma cells, whose action is accelerated by endogenous polyanions, in an analogous manner to thrombin inactivation by antithrombin III and protease nexin on endothelial cells and fibroblasts, respectively. The stimulatory effects of heparin and protamine do not affect the inactivation of cell surface u-PA by recombinant PAI-2.
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PMID:Stimulation of cell surface plasminogen activation by heparin and related polyionic substances. 183 80

Recent studies have suggested important roles for certain proteases and protease inhibitors in the growth and development of the CNS. In the present studies, inhibitors of urokinase or thrombin in cultured neural cells and serum-free medium from the cells were identified by screening for components that formed sodium dodecyl sulfate-stable complexes with 125I-urokinase or 125I-thrombin. Rinsed glioblastoma possessed two components that complexed 125I-urokinase. One was type 1 plasminogen activator inhibitor (PAI-1), because the 125I-urokinase-containing complexes were immunoprecipitated with anti-PAI-1 antibodies. The other component formed complexes with 125I-urokinase that were not recognized by antibodies to PAI-1 or protease nexin-1 (PN-1). Its identity is unknown. In addition to these cell-bound components, the glioblastoma cells also secreted two inhibitors that formed complexes with 125I-urokinase; one was PAI-1, and the other was PN-1. The secreted PN-1 also formed complexes with 125I-thrombin. It was the only thrombin inhibitor detected in these studies. Human neuroblastoma cells did not contain components that formed detectable complexes with either 125I-urokinase or 125I-thrombin. However, human neuroblastoma cells did contain very low levels of PN-1 mRNA and PN-1 protein. Added PN-1 bound to the surface of both glioblastoma and neuroblastoma cells. This interaction accelerated the inhibition of thrombin by PN-1 and blocked the ability of PN-1 to form complexes with 125I-urokinase. Thus, cell-bound PN-1 was a specific thrombin inhibitor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibitors of urokinase and thrombin in cultured neural cells. 198 20

Increasing attention is being paid to alterations of the hemostatic balance in tumors, in general, and brain tumors, in particular. Apparently divergent results, showing excess fibrinolysis (i.e., increased plasminogen activator activity) or its inhibition (i.e., increased inhibitor activity), have been reported. The 9L rat brain tumor is a gliosarcoma and a model used to study treatment paradigms for human gliomas. To study the roles of fibrin and fibrinolysis in this brain tumor model, we used these features to investigate the nature of the plasminogen activator (PA) and thrombin inhibitors in normal rat brain and in the 9L rat brain tumor, growing both in vitro and in vivo in rat brain. The results indicate that cells cultured from the tumor in vitro express PA inhibitory activity which is both of the protease nexin I and PA inhibitor 1 types. However, the serpin PA inhibitory activity in extracts of both the normal brain and tumor is of the protease nexin I/PA inhibitor 3 type. This activity is higher in the tumor than in the surrounding "normal" tissue. In addition, we present evidence for a novel thrombin inhibitor which (a) is present only in the tumor growing in rat brain and undetectable either in the normal brain tissue or in vitro, (b) is in a latent, but sodium dodecyl sulfate-activatable, state, and (c) does not bind urokinase. In current studies, investigators are exploring the roles of these molecules and the target serine proteases they inhibit in the pathogenesis of gliomas.
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PMID:Serpin inhibitors of urokinase and thrombin in normal rat brain and the 9L brain tumor: evidence for elevated expression of protease nexin I-like inhibitor and a novel sodium dodecyl sulfate-activated tumor antithrombin. 211 23

Changes in plasminogen activator (PA) and PA inhibitor (PAI) activities were measured during follicular development in granulosa cells (GC) and theca tissue (TT) isolated from the six largest yolk-filled preovulatory follicles (F1, F2, F3, F4, F5, F6) and large white follicles (LWF) of the domestic hen. PA activity increased and PAI activity decreased during follicular development, with the peak PA value and minimum activity for PAI observed in the largest preovulatory follicle (F1) 12-14 h before expected time of ovulation. The PA activity in GC and TT appears to be principally of the tissue (t)-PA type judging from its substrate specificity and biochemical characteristics. The enzyme cleaved the chromogenic substrate specific for t-PA (Spectrozyme TM t-PA; CH3SO2-D-CHT-Gly-Arg-p-nitroanilide) more efficiently (4-6 x) than that for u-PA (Spectrozyme TM UK; Cbo-L-Glu-(alpha-t-BuO)-Gly-Arg-p-nitroanilide), suggesting that t-PA may be the predominant PA in the chicken preovulatory follicle. Determination of PA activity following sodium dodecyl sulphate-polyacrylamide gel electrophoresis and isoelectric focussing suggested the presence of two forms of the enzyme in GC and TT. The predominant form of PA had a molecular weight of 75,000 and an isoelectric point (pI) of 7.7, characteristics similar to those reported for t-PA in humans, pigs, and rodents. The other form of PA had a molecular weight of 35,000 and pI of 8.4. PAI present in GC and TT had a molecular weight of 50,000 and pI of 4.7. In GC, an acid-labile PAI was detected with biochemical characteristics similar to those of the protease, nexin I.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in tissue-type plasminogen activator-like and plasminogen activator inhibitor activities in granulosa and theca layers during ovarian follicle development in the domestic hen. 211 20

In the course of studies on the regulation of plasminogen activator-mediated extracellular matrix degradation in muscle we found the presence of a factor, a cellular inhibitor of serine proteases having features similar to the serpin protease nexin I (PNI). This factor was present in the medium and at maximum concentration following fusion of skeletal muscle cells in culture. The ability of the PNI homologue in mouse muscle to inhibit ECM degradation by urokinase in myoblast medium was compared to that of human PNI purified from human fibroblasts. Stable (to SDS) 1:1 molar ratio complex formation between PNI and proteases, the proposed means by which these enzymes are regulated and removed, was also detected. Cell surface receptors for protease:PNI complexes, the specific binding sites for inactive complex internalization, were found on multinucleated myotubes, while little or no receptor activity was detected on myoblasts. These data suggest that developmental regulation of a) increased PNI proteolytic inhibitory activity expression and b) the appearance of protease:inhibitor complex receptors on muscle cell surfaces during myogenesis may constitute important regulatory features of muscle surface proteolytic activity. They complement previous studies of proteoglycan metabolism in muscle, which itself contains molecules capable of regulating the activity of myotube surface proteases.
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PMID:Plasminogen activators and their inhibitors in the neuromuscular system: II. Serpins and serpin: protease complex receptors increase during in vitro myogenesis. 216 58

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