UNIPROT:P00750 - FACTA Search

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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glucocorticoids affect the composition and function of the plasma membrane in a variety of cell types. Cultured rat hepatoma (HTC) cells in tissue culture provide an excellent model system for analysis of such effects. In these cells, dexamethasone rapidly and dramatically inhibits the influx of amino acids sharing the A or alanine-preferring transport system. Inhibition is half-maximal within 2 h, and maximal after 6 h incubation with the hormone. The inhibition is rapidly reversed by insulin, and more slowly by removing the steroid. Microtubules and microfilaments are not apparently involved in this hormonal effect, but continuous protein synthesis is required for the glucocorticoid inhibition of transport. Dexamethasone also decreases the number of microvilli on the surface of HTC cells, increases their adhesiveness to a substratum, and dramatically decreases the production of plasminogen activator, but it does not affect the growth rate or plating efficiency of the cells. Variant cell lines stably resistant to dexamethasone inhibition of plasminogen activator production have been isolated using an agar-fibrin overlay technique to detect protease production by individual colonies of HTC cells. The hormonal resistance to inhibition of protease production is associated witha maintenance of inducibility of other glucocorticoid-regulated functions and therefore is not apparently secondary to abnormal or absent glucocorticoid receptor, but due to a lesion in a later step in hormone action specific for plasminogen activator. Combined genetic and biochemical analysis of such dexamethasone-resistant variants should facilitate study of the hormonal regulation of specific membrane phenotypes and of the role of proteases in this regulation.
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PMID:Glucocorticoids and the plasma membrane. 38 92

Primary cultures of rat hepatocytes survived well for up to 4 days in defined medium in the presence of dexamethasone but not in its absence. The loss of viability was accompanied by a loss of ultrastructural features characteristic of hepatocytes. The cultures began producing plasminogen activator and a neutral protease after 24 hr in culture. Dexamethasone inhibited the production of both of these substances. The deterioration of the cultures appeared not to be related to plasminogen activator, but prolongation of survival by a variety of protease inhibitors suggested that the neutral protease might contribute to deterioration.
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PMID:Rat hepatocyte primary cultures. IV. Maintenance in defined medium and the role of production of plasminogen activator and other proteases. 56 18

In a placebo-controlled double-blind study on patients undergoing cardiopulmonary bypass (CPB) we studied the inhibiting effects of dexamethasone, a high dose of methylprednisolone, and a low dose of prednisolone on the inflammatory reaction induced by CPB. During CPB two episodes of blood activation were noticed. First, the blood-material interaction caused a significant increase in complement C3a and elastase concentrations after the start of bypass (p less than 0.01). Secondly, the reperfusion of the ischemic heart, lungs, and peripheral tissue, after release of the aortic cross-clamp, caused an additional increase in C3a and elastase concentration and a statistically significant increase in leukotriene B4 (LTB4) concentration and tissue plasminogen activator (t-PA) activity (p less than 0.01, p less than 0.05, respectively). Dexamethasone treatment effectively inhibited the increase in LTB4 concentration and t-PA activity after release of the cross-clamp (significant differences to the placebo group, p less than 0.01, p less than 0.05, respectively). High-dose methylprednisolone treatment was almost as effective as dexamethasone treatment, whereas low-dose prednisolone treatment was less effective than methylprednisolone in the inhibition of the inflammatory mediators (DM greater than MP greater than P). None of the corticosteroid regimens was able to inhibit the increase in complement C3a and elastase. We therefore conclude that corticosteroids do not have an effect on complement activation during CPB. However, leukocyte activation and t-PA activity after release of the aortic cross-clamp are effectively inhibited by corticosteroid treatment, in a dose-dependent way. The inhibition of this inflammatory reaction will have a favourable effect on the postoperative course in patients who have undergone CPB.
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PMID:The role of different types of corticosteroids on the inflammatory mediators in cardiopulmonary bypass. 171 73

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

We have reported previously that incubation of HTC rat hepatoma cells with the synthetic glucocorticoid dexamethasone causes a 90% decrease in tissue-type plasminogen activator (tPA) activity secondary to a 4-fold increase in plasminogen activator inhibitor-1 (PAI-1) mRNA accumulation. Dexamethasone also induces a modest and transient increase in tPA mRNA. The cyclic nucleotide analog 8-bromo-cAMP (cA) causes a greater than 50-fold increase in PA activity, the result of a 90% decrease in PAI-1 and a sustained 2-fold increase in tPA mRNA accumulation. Dexamethasone and cA in combination cause a 150-fold increase in PA activity, the result of an 80% decrease in PAI-1 and a synergistic 15-fold increase in tPA mRNA. To determine the mechanism of this complex hormonal regulation, we have examined rates of synthesis and decay of PAI-1 and tPA mRNAs. Here we report that dexamethasone induces a 5-fold increase in PAI-1 gene transcription and does not significantly alter PAI-1 message decay; PAI-1 mRNA has a half-life of about 4 h in both untreated and dexamethasone-treated cells. In contrast, cA regulates PAI-1 mRNA by both decreasing the rate of PAI-1 gene transcription by 60% and accelerating the rate of PAI-1 message decay. Regulation of tPA by cA, both alone and in combination with dexamethasone, occurs primarily at the level of transcription. Dexamethasone and cA-induced tPA mRNA has a half-life of 2.75 h; tPA mRNA degradation is significantly inhibited by either cycloheximide or actinomycin-D.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Transcriptional and posttranscriptional regulation of type 1 plasminogen activator inhibitor and tissue-type plasminogen activator gene expression in HTC rat hepatoma cells by glucocorticoids and cyclic nucleotides. 173 71

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

The effects of dexamethasone on protein synthesis were studied in human fibrosarcoma (HT-1080) cells. Dexamethasone induced a new protein of 46 kD which was rapidly secreted into the medium, while neither progesterone nor estradiol would induce the synthesis of this protein and only a small increase in its amount could be seen in the presence of testosterone. The 46 kD protein was partially purified by ammonium sulfate precipitation and gel filtration and mouse monoclonal antibodies to it were produced in mouse hybrid cells. Altogether 13 positive clones were found, of which six reacted only with native and seven reacted with the unreduced 46 kD protein in Western blotting. It was possible by using polyclonal antibodies to plasminogen activator inhibitor type I (PAI-1) and purified plasminogen activator inhibitor type I to confirm that the 46 kD protein purified and characterized here was PAI-1. In addition, the 46 kD protein clearly inhibited plasminogen activation, thus further confirming that protein isolated was an inhibitor of plasminogen activator. Since the induction of PAI-1 by dexamethasone was very extensive, it is possible that glucocorticoids regulate proteolysis and fibrinolysis in vivo by increasing the amount of the inhibitor of plasminogen activator and thus preventing the activation of plasminogen to plasmin. The reduction of activation of plasminogen to plasmin by glucocorticoid-induced inhibitor could be of great importance, e.g., in various blistering diseases, in metastases from malignant cells, and in the migration of inflammatory cells.
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PMID:Dexamethasone-induced plasminogen activator inhibitor: characterization, purification, and preparation of monoclonal antibodies. 214 2

Endothelial cells synthesize and release different proteins involved in their function, and some of these proteins may play important roles in the cellular response to injury, infection, or glucocorticoids. We have examined the profile of proteins released from rabbit coronary microvascular endothelial (RCME) and human umbilical vein endothelial (HUVE) cells using two-dimensional polyacrylamide gel electrophoresis. The production of three anionic 44kD proteins was increased in RCME and HUVE-cell conditioned medium after treatment with dexamethasone, endotoxin or hypoxia-reoxygenation. The three 44 kD proteins were recognized by antisera raised against endothelial type plasminogen activator inhibitor (PAI-1). Dexamethasone treatment of HUVE and RCME cells reduced cellular and secreted plasminogen activator activity, but no significant effect of dexamethasone on PAI-1 activity in conditioned media could be demonstrated. These observations suggest that although the 44Kd proteins exhibit immunoreactivity with PAI-1 antisera, these proteins are most likely inactive forms of PAI-1.
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PMID:Dexamethasone increases the release of three 44 kD proteins immunologically related to plasminogen activator inhibitor-1 from human umbilical vein endothelial and rabbit coronary microvessel endothelial cells. 230 Sep 20

HTC rat hepatoma cells synthesize and secrete both tissue-type plasminogen activator (tPA) and type 1 plasminogen activator-inhibitor (PAI-1). Incubation with the synthetic glucocorticoid dexamethasone causes a rapid decrease in tPA activity which is secondary to a 5-fold increase in PAI-1 antigen and activity. Paradoxically, dexamethasone increases tPA antigen by 50%. We have analyzed HTC cell RNA by Northern and slot blot analysis, using as probes radiolabeled human PAI-1 and rat tPA cDNAs. HTC cells have a single species of PAI-1 mRNA of approximately 3.2 kilobases, which is increased 4-fold upon incubation with dexamethasone. Maximal induction occurs after 8-10 h of incubation. Half-maximal induction occurs at 5 nM dexamethasone. Dexamethasone also transiently increases the 2.8 kilobase tPA mRNA. The protein synthesis inhibitor cycloheximide does not affect accumulation of PAI-1 mRNA and does not block its induction by dexamethasone. In contrast, cycloheximide alone causes an increase in tPA mRNA, and in combination with dexamethasone, no further increase is observed. Induction of both mRNAs is prevented by actinomycin D. We conclude that the dexamethasone-induced increase in HTC cell PAI-1 activity and antigen is the result of a direct effect on accumulation of PAI-1 mRNA.
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PMID:Glucocorticoid induction of plasminogen activator and plasminogen activator-inhibitor messenger RNA in rat hepatoma cells. 246 9

Primary cultures of rat hepatocytes produce tissue-type plasminogen activator (tPA) and plasminogen activator-inhibitor type 1 (PAI-1). Incubation of hepatocytes with 50 microM 8-(4-chlorophenylthio)cAMP (CPT-cAMP) results in a 4-fold increase in tPA activity, whereas the synthetic glucocorticoid dexamethasone (1 microM) causes a more than 90% decrease. In combination, dexamethasone completely overcomes the CPT-cAMP effect and markedly decreases PA activity. PAI-1 is induced by both CPT-cAMP and dexamethasone, and the effects of these agents are additive. Accumulation of tPA mRNA is increased more than 4-fold by CPT-cAMP and is greatly decreased by incubation with dexamethasone. Dexamethasone in combination with CPT-cAMP totally blocks this cAMP effect. The protein synthesis inhibitor cycloheximide does not prevent either the dexamethasone-induced decrease or the CPT-cAMP-induced increase in tPA message and, in fact, augments the cAMP-induced increase in tPA mRNA. Hepatocyte PAI-1 mRNA levels are increased 2-fold by incubation with either CPT-cAMP or dexamethasone; in combination, these effectors cause a 4-fold increase in PAI-1 mRNA. Cycloheximide alone causes a marked increase in PAI-1 mRNA, but does not block the induction by either CPT-cAMP or dexamethasone. We conclude that incubation of hepatocytes with CPT-cAMP induces tPA activity by increasing tPA mRNA accumulation and that dexamethasone causes a decrease in tPA activity by both decreasing tPA mRNA and increasing PAI-1 mRNA and activity. Concomitant protein synthesis is not required for the regulation of tPA or PAI-1 mRNA by either CPT-cAMP or dexamethasone, indicating a primary effect of these agents on gene transcription or mRNA stability.
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PMID:Glucocorticoid and cyclic nucleotide regulation of plasminogen activator and plasminogen activator-inhibitor gene expression in primary cultures of rat hepatocytes. 253 89

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