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:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

How heparin inhibits vascular smooth muscle cell proliferation and migration has not been established. We have investigated the hypothesis that heparin inhibits vascular smooth muscle cell proliferation and migration by interfering with the expression and activity of proteases such as plasminogen activators. In an in vitro mitogenesis model, tissue-type plasminogen activator (tPA) mRNA and protein increase in baboon smooth muscle cells stimulated with fetal bovine serum or phorbol esters. Heparin inhibits smooth muscle cell proliferation and suppresses the induction of tPA mRNA and protein while it has little effect on the mRNA of urokinase-type plasminogen activator, plasminogen activator inhibitor type I, and a number of genes that are also modulated by serum and phorbol esters. The inhibitory effect on tPA mRNA is specific to heparin-like molecules and does not depend on the anticoagulation activity of heparin. The increase in tPA mRNA is due to increased transcription, which is suppressed by heparin. The induction of tPA by serum and phorbol esters is diminished by protein kinase C inhibitors such as H7 or staurosporine and by protein kinase C depletion. Since heparin suppresses the induction of the tPA gene by phorbol esters, these results suggest that heparin may interfere with the protein kinase C pathway.
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PMID:Heparin selectively inhibits the transcription of tissue-type plasminogen activator in primate arterial smooth muscle cells during mitogenesis. 131 Jun 87

The 32P-labeled urokinase (uPA) bound to surface receptors of Detroit 562 cells was immunoprecipitated by anti-uPA antibody. Amino acid analysis showed that tyrosines and serines were the acceptors. Inhibition of protein kinases greatly reduced the 32P incorporation, suggesting that the respective cellular src gene product and protein kinase C were involved in the phosphorylations. Proteins purified on chromatographic columns contained two forms of uPA, a high (HMW) and a low (LMW) molecular weight. Tyrosine-phosphorylation occurs in the HMW and A-chain. Such modifications might modulate the extracellular activities of uPA.
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PMID:Phosphorylation of a surface receptor bound urokinase-type plasminogen activator in a human metastatic carcinomatous cell line. 131 74

The specific phosphatase inhibitor, okadaic acid, increases the level of mRNA for the receptor for urokinase-type plasminogen activator (u-PAR) in 8 out of 13 human cell lines. The strongest increase (90-fold) was observed in A549 lung carcinoma cells, in which it was partly traced back to an increased transcription of the u-PAR gene. There was a parallel but less pronounced increase in the u-PAR protein level. These findings indicate that u-PAR gene transcription is regulated by one or more factors that are constitutively phosphorylated and are dephosphorylated by okadaic acid-sensitive phosphatases. A lack of additivity of u-PAR induction by okadaic acid and by the protein kinase C activator, PMA, in the A549 cells suggests that the regulatory factors affected by okadaic acid are phosphorylated by protein kinase C.
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PMID:Okadaic acid strongly increases gene transcription, mRNA and protein level for the urokinase receptor in human A549 cells. 131 23

The potential contribution of serine/threonine-specific protein phosphatases in the transcriptional regulation of plasminogen activator and plasminogen activator inhibitor gene expression was explored in human HT-1080 fibrosarcoma and U-937 monocyte-like cells using okadaic acid, a potent and specific inhibitor of phosphatases 1 and 2A (PP1 and PP2A). In both cell types okadaic acid induced plasminogen activator type 2 (PAI-2) gene transcription and mRNA and potentiated induction mediated by phorbol-12-myristate-13-acetate and tumor necrosis factor. Okadaic acid-mediated induction of PAI-2 was inhibited by 8-bromo-cAMP in HT-1080 cells but not in U-937 cells. Okadaic acid had opposite effects on urokinase (u-PA) gene expression in the two cell lines; u-PA mRNA and gene transcription was suppressed in HT-1080 cells but transiently induced in U-937 cells. Tissue-type PA (t-PA) mRNA, although undetectable in U-937 cells, was also suppressed by okadaic acid in HT-1080 cells. This effect was selective, as constitutive and phorbol-12-myristate-13-acetate-mediated expression of plasminogen activator inhibitor type 1 mRNA was not modulated by okadaic acid in either cell type. These results indicate that PP1 and PP2A protein phosphatases are involved in signal transduction pathways modulating PAI-2, u-PA, and t-PA, and furthermore, that okadaic acid interaction with the protein kinase C and A pathways are gene- and cell type-specific.
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PMID:Cell- and gene-specific interactions between signal transduction pathways revealed by okadaic acid. Studies on the plasminogen activating system. 131 13

Two plasminogen activators (PAs): tissue-type plasminogen activator (t-PA) and urokinase-type plasminogen activator (u-PA), as well as the type-1 plasminogen activator inhibitor (PAI-1) are synthesized and secreted by rat astrocytes. Preliminary studies suggest that PA activity plays a role in astrocyte development and differentiation. We have examined the regulation of the PA system by the cAMP-dependent protein kinase (PKA) and protein kinase C (PKC) in purified rat astrocyte cultures. PKA activity was increased by exposing cultured astrocytes to forskolin or dibutyryl cyclic AMP, whereas PKC activity was stimulated with phorbol-12-myristate 13-acetate (PMA). Activation of both second-messenger pathways produced a time- and dose-dependent increase in the total PA activity. However, based on SDS-PAGE/zymography we found that forskolin increased t-PA activity and reduced u-PA activity, whereas PMA treatment caused a significant increase in u-PA activity without altering t-PA activity. Reverse zymography analysis revealed that astrocyte PAI-1 activity is decreased by forskolin and increased by PMA. Together, these results demonstrate that the components of the PA system in rat astrocytes are independently and reciprocally regulated by PKA and PKC. Our findings raise the possibility that the plasminogen activator system could be involved in some of the actions of growth factors and/or neuromodulators that modulate PKC or PKA in astrocytes.
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PMID:Regulation of plasminogen activators and type-1 plasminogen activator inhibitor by cyclic AMP and phorbol ester in rat astrocytes. 133 67

We have previously shown that alpha-thrombin exerted a mitogenic effect on human glomerular epithelial cells and stimulated the synthesis of urokinase-type (u-PA) and tissue-type plasminogen activator (t-PA) and of their inhibitor, plasminogen activator inhibitor 1 (PAI-1). In the present study, we investigate the signal transduction mechanisms of thrombin in these cultured cells. Thrombin induced an increase in intracellular free calcium concentrations ([Ca2+]i) in a dose-dependent manner, a plateau being reached at 1 U/ml thrombin. A 60% inhibition of this effect was produced by 300 nM nicardipine, a dihydroperidine agent, or by 4 mM EGTA, indicating that increase in [Ca2+]i was due in part to extracellular Ca2+ entry through L-type voltage-sensitive calcium channels. Thrombin also induced an increase in inositol trisphosphate (IP3), suggesting that phospholipase C activation and phosphatidylinositides breakdown were stimulated. Interestingly thrombin-stimulated cell proliferation measured by 3H thymidine incorporation was inhibited by 300 nM nicardipine, and restored by addition of 10(-8) M ionomycin, indicating that calcium entry was critical for the mitogenic signal of thrombin. Conversely, nicardipine did not modify thrombin-stimulated synthesis of u-PA, t-PA, and PAI-1. Both thrombin-stimulated cell proliferation and protein synthesis required protein kinase C activation since these effects were blocked by 10 microM H7, an inhibitor of protein kinases, and by desensitization of protein kinase C by phorbol ester pretreatment of the cells. Interestingly, DFP-inactivated thrombin which binds the thrombin receptor and gamma-thrombin, which has some enzymatic activity but does not bind to thrombin receptor, had no effect when used alone. Simultaneous addition of these two thrombin derivatives had no effect on [Ca2+]i, and 3H thymidine incorporation but stimulated u-PA, t-PA, and PAI-1 synthesis although to a lesser extent than alpha-thrombin. This effect also required protein kinase C activation to occur, presumably by a pathway distinct from phosphoinositoside turnover since it was not associated with IP3 generation. In conclusion, multiple signalling pathways can be activated by alpha-thrombin in glomerular epithelial cells: 1) Ca2+ influx through a dihydroperidine-sensitive calcium channel, which seems critical for mitogenesis; 2) protein kinase C activation by phosphoinositide breakdown, which stimulates both mitogenesis and synthesis of u-PA, t-PA, and PAI-1; 3) protein kinase C activation by other phospholipid breakdown can stimulate u-PA, t-PA, and PAI-1 synthesis but not mitogenesis.
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PMID:Thrombin signal transduction mechanisms in human glomerular epithelial cells. 153 79

Transfection of mouse Y1 adrenal tumor cells with DNA encoding mutant type I regulatory subunit generated stable transformants in which the basal activity of cAMP-dependent protein kinase was repressed. As expected, steroidogenesis in these kinase-deficient cells was no longer stimulated by corticotropin or cAMP analogues, and the expression of three cAMP-regulated genes (ornithine decarboxylase, urokinase-type plasminogen activator, and P450 side-chain cleavage) could no longer be induced. However, in addition to the loss of hormone responsiveness, the basal level of steroidogenesis and the constitutive expression of these cAMP-inducible genes was also repressed in kinase-defective mutant clones. To verify that functional cA-PK would revert this repressed phenotype, we transfected a cA-PK defective subclone of Y1 cells, Kin 8, with DNA encoding the C alpha and C beta subunits of cAMP-dependent protein kinase. Basal levels of steroid production were restored to normal in stable transformants, and the elevation of kinase activity following induction of the C-subunit expression vectors elicited a steroidogenic response. Gene transcription was also shown to be regulated by either C alpha or C beta as measured by the induction of plasminogen activator and ornithine decarboxylase mRNA levels and transcription rates. The dominant role played by cAMP-dependent protein kinase in these adrenal cells was demonstrated by experiments showing the regulation of ornithine decarboxylase gene expression by protein kinase C requires basal cAMP-dependent protein kinase activity.
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PMID:Cyclic AMP-dependent protein kinase controls basal gene activity and steroidogenesis in Y1 adrenal tumor cells. 156 25

The expression of certain proteolytic enzymes involved in cell migration (collagenase, urokinase) can be enhanced by the disruption of cellular cytoskeletal organization, suggesting an association between cell shape and gene expression. We have examined the effect of cytoskeleton-disrupting agents on the production and secretion of another proteolytic enzyme, tissue plasminogen activator (tPA), and its inhibitor, plasminogen activator inhibitor-1 (PAI-1), in human endothelial cells. Addition of 1 x 10(-6) M colchicine, 5 x 10(-6) M cytochalasin B, 10(-6) M nocodazole, or 10(-6) M tubulazole had no effect on the constitutive rate of release of tPA. However, the three microtubule-disrupting agents--colchicine, nocodazole, and tubulazole--depressed the stimulation of tPA secretion by phorbol myristate acetate (PMA) by 50- to 65%. Disruption of microfilament structure by cytochalasin B had no effect. In contrast, microtubule disruption in the absence or presence of PMA stimulated PAI-1 secretion by 2.5 and 2 times, respectively. The depression of tPA secretion was not due to inhibition of the secretory function since tPA did not accumulate intracellularly during colchicine treatment. Nor did colchicine affect the PMA activation of protein kinase C-alpha, upon which stimulation of tPA is dependent; neither translocation of the kinase nor phosphorylation of the protein kinase C substrate protein, P80, was inhibited. Measurement of tPA mRNA levels demonstrated that the increase which precedes PMA-enhanced tPA secretion was also inhibited by colchicine by 50%. However, tPA gene transcriptional activity was only reduced 13%, suggesting that a post-transcriptional event was affected by microtubule disruption. PAI-1 mRNA levels and transcription rates were elevated 3.5 times. This study suggests that the changes that occur in endothelial cells during PMA-induced signal transmission leading to enhanced tPA mRNA levels and tPA antigen production can be partly blocked by agents that disrupt microtubule organization.
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PMID:Disruption of microtubules inhibits the stimulation of tissue plasminogen activator expression and promotes plasminogen activator inhibitor type 1 expression in human endothelial cells. 163 33

Interactive regulation of gene expression by retinoic acid (RA) and adenosine monophosphate (cAMP) in mammary tumor cells was explored using Shionogi mouse mammary carcinoma cells (SC115) as a model and urokinase-type plasminogen activator (uPA) as a target gene product. Twenty-four hour treatment of SC115 cells with 100 nM RA, 1 mM 8-bromo-cAMP (BrcAMP), and 100 nM RA + 1 mM BrcAMP resulted in extracellular uPA activity increases of 1.4-fold, sevenfold, and 20-fold, respectively. These effects were dose-dependent with regard to both interacting members. Similar responses were obtained if 1 nM cholera toxin or 10 microM forskolin was used instead of the cAMP analog. Retinoids lacking the carboxylic acid function were inactive. The changes in uPA activity were accompanied by similar changes in uPA antigen concentration, as seen via Western blot analysis, and uPA mRNA abundance, as seen via Northern blot analysis. Actinomycin D, an inhibitor of RNA synthesis, blocked uPA stimulation by BrcAMP, suggesting that mRNA levels were transcriptionally regulated. The effect of BrcAMP on extracellular uPA activity was first evident at 2 h and peaked at approximately 6 h; the effect of RA alone and the synergistic response to joint treatment, however, followed a slower time course, requiring at least 12 h for initial expression and increasing gradually with time up to at least 48 h. Priming with RA for 48 h followed by extensive washing of the cells resulted in a threefold enhancement of the stimulatory effect of BrcAMP on uPA. Experiments utilizing the casein/plasminogen overlay method for the detection of uPA secretion by increased rate of uPA secretion per cell rather than to an increased fraction of uPA-secreting cells. Initial investigation of the mechanism of RA potentiation of cAMP responsiveness showed that RA did not alter cellular cAMP levels or total cAMP-dependent protein kinase A activity. Finally, the tumor promoter phorbol myristate acetate, an activator of protein kinase C, also increased SC115 cell uPA activity and synergized with RA. This raised the possibility that the enhancement of cAMP responsiveness by RA was indirectly mediated via an effect on protein kinase C. Experiments with protein kinase C-depleted cells, however, showed that this was not the case. In conclusion, RA treatment of SC115 cells potentiates the effect of cAMP on uPA expression at the single cell level via a partially irreversible mechanism independent of protein kinase C. The molecular target of RA and whether SC115 cell differentiation underlies the effect of RA remain to be established.
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PMID:Retinoic acid priming potentiates the induction of urokinase-type plasminogen activator by cyclic adenosine monophosphate in mouse mammary carcinoma cells. 164 61

Human renal glomerular epithelial cells possess membrane urokinase receptors. Addition of purified active urokinase to these cells in serum free minimum medium induced a dose-dependent increase in 3H-thymidine incorporation and a doubling of cell number after 48 hours of incubation. Both receptor occupancy and enzymatic activity of u-PA were required to stimulate cell proliferation. This effect was inhibited by down regulation of protein kinase C (PKC) or by H7, an inhibitor of PKC. It involved a pertussis toxin-sensitive pathway. This effect of urokinase was additive with EGF but not with thrombin growth factor activity and was not inhibited by aprotinin, an inhibitor of plasmin.
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PMID:Growth factor-like effect of urokinase type plasminogen activator in human renal cells. 164 44


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