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)

A mutant LLC-PK1 cell line, M18, was isolated after a single treatment of the parent culture with N-methyl-N'-nitro-N-nitroso-guanidine. In contrast to LLC-PK1 cells, the mutant did not exhibit production of urokinase-type plasminogen activator (uPA) in response to the hormones calcitonin and vasopressin, but produced the expected levels of uPA upon stimulation by the receptor-independent adenylate cyclase activators forskolin and cholera toxin, as well as by the phosphodiesterase inhibitor isobutylmethylxanthine and the 8-bromo analogue of adenosine cyclic monophosphate, Br8cAMP. The patterns of activation of cAMP-dependent protein kinase were identical to those of uPA induction: calcitonin and vasopressin were without effect, but the response to all other agents was normal. In similar fashion, mutant cell homogenates displayed normal activation of adenylate cyclase upon treatment with sodium fluoride, forskolin, or the non-hydrolyzable GTP analogue guanosine 5'-[beta, gamma-imino]triphosphate, but were unresponsive to calcitonin or vasopressin. The ability of M18 cells to bind radioactively labelled calcitonin and vasopressin was measured. The mutant possessed less than 4% of the normal levels of the receptor binding activity for both hormones. Somatic cell hybrids formed between M18 and LLC-PK1 cells were found to retain normal hormone binding activity and responsiveness to hormones, indicating that the defect in M18 cells was recessive. M18 was concluded most probably to contain a single mutation impairing the function of two distinct polypeptide hormone receptors.
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PMID:Isolation of a mutant LLC-PK1 cell line defective in hormonal responsiveness. A pleiotropic lesion in receptor function. 302 58

In LLC-PK1 pig kidney cells, treatment with a cAMP-elevating peptide hormone, calcitonin, induces the accumulation of urokinase-type plasminogen activator (uPA) mRNA. When we used the method of differential hybridization to isolate uPA cDNA clones, we also obtained several calcitonin-inducible clones that were unrelated to uPA. Sequence analysis revealed 60% sequence homology between one of these clones and that of a Drosophila hsp70 gene. The uPA and the hsp70 cDNA clones were used as probes to compare the effects of various treatments on the accumulation of uPA mRNA and hsp70 mRNA in LLC-PK1 cells. Calcitonin or 8-bromo-cAMP treatment induced uPA mRNA accumulation, which was negligible in untreated cells. Heat treatment (42 degrees C) was ineffective. Calcitonin or heat treatment increased hsp70 mRNA accumulation, which was already high in untreated cells, but 8-bromo-cAMP was ineffective. Nuclear transcription of the hsp70 gene was increased by calcitonin but not by 8-bromo-cAMP treatment. These results suggest that calcitonin induces hsp70 mRNA accumulation in LLC-PK1 cells by a pathway apart from the activation of adenylate cyclase and through, at least partly, the activation of the gene transcription. Furthermore, induction of uPA mRNA accumulation by calcitonin or 8-bromo-cAMP treatment did not require protein synthesis. In contrast, induction of hsp70 mRNA accumulation by calcitonin or heat treatment did require protein synthesis. Other reports showed that protein synthesis is not required for heat induction of hsp70 mRNA in different cells, suggesting that the mechanism of induction of hsp70 mRNA accumulation in LLC-PK1 cells is not the same as in other cells.
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PMID:hsp70 mRNA accumulates in LLC-PK1 pig kidney cells treated with calcitonin but not with 8-bromo-cyclic AMP. 336 Jul 80

The peptide hormone calcitonin induces the accumulation of urokinase-type plasminogen activator (uPA) mRNA in pig kidney LLC-PK1 cells. By itself, inhibition of protein synthesis had a negligible effect on uPA mRNA accumulation. Inhibition of protein synthesis led to two superinductive effects: an increase in calcitonin-induced uPA mRNA accumulation over time, and a shift in the dose-response curve so that lower calcitonin doses became more potent. To explain these two superinductive effects of protein-synthesis inhibition on calcitonin treatment, we demonstrated that the inhibition of protein synthesis increased both calcitonin-induced uPA-gene transcription and uPA-mRNA stability. Different protein-synthesis inhibitors had similar actions, arguing against the possibility that the results were attributable to an anomalous action of a particular inhibitor. The superinductive effects of protein-synthesis inhibition could not be mimicked when a tumour promoter, 12-O-tetradecanoylphorbol 13-acetate (TPA), was used instead of calcitonin as an inducer. Calcitonin and TPA exert their effects through different pathways, suggesting a clue to the mechanism of superinduction. Although inhibition of protein synthesis has been reported to increase transcription and mRNA stability in a number of other systems, the one described here appeared unique in combining both effects in the context of hormonal regulation.
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PMID:Inhibition of protein synthesis in LLC-PK1 cells increases calcitonin-induced plasminogen-activator gene transcription and mRNA stability. 359 59

Induction of urokinase-type plasminogen activator (uPA) in response to either reagents activating cAMP-dependent protein kinase (cAMP-PK) or the calcium ion phospholipid-dependent kinase (C-kinase) was compared in the LLC-PK1 and T47D cell lines. The two cell lines exhibited quantitatively different responses to calcitonin, to the phosphodiesterase inhibitor isobutylmethylxanthine, and to the adenylate cyclase activator forskolin. Both showed activation of cAMP-PK in response to all these reagents, with T47D cells displaying a greater extent of activation. T47D cells, however, failed to produce uPA in response to calcitonin, forskolin, or the cAMP analog 8-bromo-cAMP, whereas LLC-PK1 cells produced high levels of uPA in response to all these agents. Both cell lines responded to phorbol esters in terms of uPA induction, though to differing extents. Phorbol myristate acetate (PMA) was shown conclusively not to activate cAMP-PK in either cell line, even at concentrations 10-fold higher than those promoting maximal uPA induction. It was concluded that phorbol ester-mediated induction of uPA does not involve cAMP or cAMP-PK activation. These results are discussed in relation to proposed models concerning the role of cAMP-PK in uPA induction.
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PMID:Pathway of urokinase-type plasminogen activator induction in the T47D and LLC-PK1 cell lines. 365 59

The peptide hormone, calcitonin, induces urokinase-type plasminogen activator (uPA) enzyme activity in cultured LLC-PK1 pig kidney cells. This induction occurs as a consequence of transcriptional activation of the uPA gene. Treatment with the synthetic glucocorticoid hormone, dexamethasone, was found to inhibit calcitonin induction of uPA enzyme activity by as much as 80%. The inhibitory effect of dexamethasone was attributed to at least two mechanisms: induction of an inhibitor of uPA enzyme activity, and reduction in uPA mRNA levels. Study on reduction of uPA mRNA levels showed that dexamethasone significantly reduced the transcription rate of the calcitonin-induced uPA gene, without affecting the half-life of uPA mRNA. Although dexamethasone has been reported to induce inhibitors of plasminogen activator enzyme activity and to inhibit transcription of various genes, the system described here appears novel in that both actions are coordinated.
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PMID:Dexamethasone coordinately inhibits plasminogen activator gene expression and enzyme activity in porcine kidney cells. 382 25

The plasminogen activator secreted by calcitonin-treated pig kidney cells was purified, characterized and compared with human urinary urokinase. The purification procedure was based on the following steps: sulphopropyl-Sephadex chromatography, p-aminobenzamidine-Sepharose chromatography, preparative sodium dodecyl sulphate/polyacrylamide-gel electrophoresis and isoelectrofocusing. The purified enzyme was obtained from the conditioned medium with a yield of 13% and a purification factor of 390-fold. Analysis by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis under non-reducing conditions showed one closely spaced doublet with an Mr of 50 000; in the presence of reducing agents, two additional bands of Mr 30 000 and 20 000 appeared. The purified enzyme resembles the 53 000-Mr components of human urinary urokinase in amino acid composition and two-dimensional tryptic peptide maps and in its catalytic properties, and the two enzymes cross-react immunologically with rabbit antibodies raised against either. The enzyme appears to be different from tissue plasminogen activator secreted by HeLa cells.
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PMID:Purification and characterization of a plasminogen activator secreted by a pig kidney cell line. 643 Feb 76

An attempt was made to establish whether the activation of plasminogen into plasmin is necessary either for the preparatory phases to bone resorption, involving the recruitment of osteoclast precursors, their migration toward mineralized surfaces, and their final differentiation, or for the subsequent osteoclastic resorption phase. 45Ca-labeled fetal (17 day) mouse metatarsals were cultured under conditions in which they pursue their modeling for a few days. In this model, the resorption phase, monitored by the release of 45Ca into the medium, is entirely dependent on the preparatory phases affecting osteoclast precursors. It was, as expected, stimulated by parathyroid hormone (PTH) and 1,25-dihydroxyvitamin D3 and inhibited by calcitonin. PTH also enhanced the activity of tissue-type plasminogen activator (PA) in extracts of metatarsals but not that of urokinase (which is, however, the main PA present in the mouse fetal metatarsal culture model). The resorption processes were not dependent on the presence of plasminogen in the media, even when the rudiments were precultured with tranexamic acid to remove their endogenous plasminogen. Moreover, they were not influenced by inhibitors of plasmin, either the plasma inhibitors alpha 2-antiplasmin, alpha 2-macroglobulin, and alpha 1-antitrypsin, or aprotinin, which was tested under a variety of conditions. Aprotinin also did not influence the resorption (loss of calcium and hydroxyproline) of 19 day fetal mouse calvariae cultured with PTH in a medium devoid of plasminogen. It is concluded that the various steps implicated in the bone resorption processes that occur in the metatarsals and in the calvariae culture models are not dependent on the activity of plasmin. The function of PAs in bone, however, could be exerted through direct proteolysis of extracellular proteins other than plasminogen or be mediated by a molecular structural domain distinct from their catalytic domain.
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PMID:Relationship of the plasminogen activator/plasmin cascade to osteoclast invasion and mineral resorption in explanted fetal metatarsal bones. 807 64

After thrombolytic therapy with urokinase (UK) plasmaimmunoreactive calcitonin gene-related peptide (CGRP-ir) in patients with acute myocardial infarction (AMI) was increased rapidly, and 2 hours after treatment with UK the plasma CGRP-ir reached peak value which was 5 times higher than that before thrombolytic therapy. Fourteen hours after therapy with UK the plasma CGRP-ir gradually decreased to the initial level before treatment. In rat model with abdominal aorta thrombosis induced by FeCl3-injured vascular endothelium, it was found that change in plasma CGRP-ir of the rats after treatment with UK was similar to that of AMI patients, and that administration of CGRP alone had no recanalization effect on the thrombotic blood vessel. However, treatment with CGRP synergically potentiated the UK-induced vascular recanalization in a dose-dependent manner. And antagonist of CGRP (CGRP8-37) significantly attenuated the recanalization action of UK. The results suggest that release of CGRP by tissues could play an endogenous protective role in thrombolytic therapy with UK, and exogenous administration of CGRP might be useful clinically as an assistant of vascular recanalization.
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PMID:[Calcitonin gene-related peptide and thrombolysis]. 822 67

Neuropeptide Y and calcitonin gene-related peptide are abundant neuropeptides in the mammalian central and peripheral nervous systems. Their enzymatic degradation by cultivated neurons, astrocytes, and microglia, as well as by purified urokinase-type plasminogen activator, plasmin, thrombin, and trypsin, was investigated in an in vitro approach to elucidate the role of matrix-degrading serine proteinases for inactivation of neuropeptides, especially those of higher amino acid chain length, in the brain. Astrocytes were almost unable to catabolize the peptides. Cultivated neurons and microglia digested neuropeptide Y through cleavage after Arg19, Arg25, Arg33, and Arg35, calcitonin gene-related peptide was cleaved after Arg11 and Arg18. The same cleavage pattern was observed, when neuropeptide Y and calcitonin gene-related peptide were degraded by purified urokinase-type plasminogen activator, plasmin, thrombin, and trypsin. For further characterization of the neuropeptide-degrading serine proteinase activities from cell cultures, urokinase-type plasminogen activator was identified on microglia by immunostaining, whereas tissue-type plasminogen activator mRNA occurred in neurons and astrocytes, but not in microglia. The data are consistent with the possibility that the neuropeptide-degrading serine proteinase activity on neurons and microglia is due to a mixture of plasmin and plasminogen activator activities.
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PMID:Metabolism of neuropeptide Y and calcitonin gene-related peptide by cultivated neurons and glial cells. 873 50

Plasminogen activators (PA) are implicated in cell migration and tissue remodeling, two components of the bone resorption processes. Using mice with inactivated tissue PA (tPA), urokinase PA (uPA), or type 1 PA inhibitor (PAI-1) genes, we evaluated whether these processes, or their stimulation by parathyroid hormone (PTH) or 1,25-dihydroxyvitamin (1,25[OH]2D3) are dependent on these genes. Two culture models were used, one involving 19-day fetal calvariae, to evaluate the direct resorptive activity of osteoclasis, and the other involving 45Ca-labeled 17-day fetal metatarsals, in which this activity depends on preliminary (pre)osteoclast migration. PTH similarly increased (about 10-fold) PA activity in calvariae from wild-type tPA+/+ and uPA+/+ or deficient uPA-/- and PAI-/- mice; it affected only tPA, not uPA. In tPA-/- bones, the low PA levels, due to uPA, were not influenced by PTH. Calcitonin did not affect PA responses to PTH. No differences were observed between tPA+/+, tPA-/-, uPA+/+, and uPA-/- calvariae for any parameter related to bone resorption (development of lacunae, release of calcium and lysosomal enzymes, accumulation of collagenase, loss of hydroxyproline), indicating similar responses to PTH or calcitonin. The progressive 45Ca release was largely similar in cultures of tPA+/+, tPA-/-, uPA+/+, uPA-/-, PAI+/+, or PAI-/- metatarsals and it was similarly enhanced by PTH or 1,25(OH)2D3. However, uPA-/- metatarsals released 45Ca at a slower rate at the beginning of the cultures, suggesting an impaired recruitment of the (pre)osteoclasts, which migrate at that time from the periosteum into the calcified cartilage. Thus, it appears that the direct resorptive activity of the osteoclasts does not necessitate the presence of either tPA or uPA, but uPA is likely to facilitate the migration of the (pre)osteoclasts toward the mineralized surfaces. Although considerably enhanced by PTH, tPA does not mediate the actions of PTH (nor of 1,25[OH]2D3) evaluated in these models.
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PMID:Bone resorption and response to calcium-regulating hormones in the absence of tissue or urokinase plasminogen activator or of their type 1 inhibitor. 885 51


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