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)

Interferon-alpha (IFN alpha) induces an immediate transcriptional response of a restricted set of genes in target cells. Specific transcription is mediated by the cytoplasmic activation of a transcription factor complex termed ISGF3. ISGF3 is a multimeric protein complex composed of a regulatory component (ISGF3 alpha), which is activated following IFN alpha treatment, and a DNA-binding component (ISGF3 gamma), which recognizes the IFN alpha-stimulated response element (ISRE). Following activation, ISGF3 alpha translocates to the nucleus where ISGF3 assembles as a high affinity complex on the ISRE. The biochemical basis for receptor-mediated activation of ISGF3 is unknown. We report that two potent protein kinase inhibitors, staurosporine and K-252a, ablated the transcriptional response to IFN alpha treatment. These inhibitors prevented the activation of the ISGF3 alpha component without affecting the ISGF3 gamma component, resulting in no accumulation of mature ISGF3 in nuclei of treated cells. Although these agents are potent inhibitors of protein kinase C (PKC), PKC does not mediate ISGF3 alpha activation. Down-regulation of PKC by chronic exposure of cells to 12-O-tetradecanoylphorbol-13-acetate, which led to complete loss of PKC-immunoreactive material, failed to ablate the transcriptional response to IFN alpha or the activation of ISGF3 alpha. The PKC-specific inhibitor calphostin C did not perturb activation or nuclear accumulation of ISGF3. We conclude that a novel, staurosporine/K-252a-sensitive kinase is required for ISGF3 activity and may participate in receptor-mediated signal transduction.
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PMID:Protein kinase activity required for an early step in interferon-alpha signaling. 174 40

Treatment of PC12 cells with nerve growth factor does not alter the levels of B-raf mRNA, but does induce rapid phosphorylation of B-raf proteins. Phosphorylation was observed after 1.5 min and reached a maximum by 10-15 min. B-raf protein was phosphorylated almost exclusively on serine residues; no tyrosine phosphorylation was detected. Nerve growth factor-induced phosphorylation was not affected by depletion of protein kinase C or by removal of extracellular calcium but was inhibited by K-252a. Concomitant with the increase in serine phosphorylation, nerve growth factor treatment also increased the serine/threonine kinase activity of B-raf protein within 1-2 min.
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PMID:The phosphorylation and activation of B-raf in PC12 cells stimulated by nerve growth factor. 174 51

Scatter factor (SF) is a fibroblast-derived cytokine which stimulates motility of epithelial and vascular endothelial cells. We used a quantitative assay based on migration of cells from microcarrier beads to flat surfaces to study the regulation of motility in bovine brain endothelial cells (BBEC). Peptide growth factors (EGF, ECGF, basic FGF) did not stimulate migration. Tumor promoting phorbol esters (PMA, PDD) markedly stimulated migration, while inactive phorbol esters (4a-PDD, phorbol-13,20-diacetate) did not affect migration. Both SF- and PMA-stimulated migration were inhibited by 1) TGF-beta; 2) protein kinase inhibitors (e.g., staurosporine, K-252a); 3) activators of the adenylate cyclase signaling pathway (e.g., dibutyryl cyclic AMP, theophylline); 4) cycloheximide; and 5) anti-cytoskeleton agents (e.g., cytochalasin B, colcemid). However, PMA and SF pathways were distinguishable: 1) PMA induced additional migration at saturating SF concentrations; 2) the onset of migration-stimulation was immediate for PMA and delayed for SF; and 3) down-modulation of protein kinase C (PKC) ablated PMA but not SF responsiveness. Assessment of PKC by (3H)-phorbol ester (PDBu) binding and by immunoblot showed 1) scatter factor does not cause significant redistribution or down-modulation of PDBu binding or alpha-PKC; and 2) PDBu mediates redistribution and down-modulation of both binding and alpha-PKC. These findings suggest two pathways for BBEC motility: a PKC-dependent pathway and an SF-stimulated/PKC-independent pathway.
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PMID:Regulation of motility in bovine brain endothelial cells. 182 64

The effects of staurosporine and K-252a, potent inhibitors of protein kinases, and 12-O-tetradecanoylphorbol-13-acetate (TPA) on catecholamine secretion and protein phosphorylation in digitonin-permeabilized bovine adrenal medullary cells were investigated. Staurosporine and K-252a (0.01-10 microM) did not cause large changes in catecholamine secretion evoked by Ca2+ in digitonin-permeabilized cells whereas these compounds strongly prevented TPA-induced enhancement of catecholamine secretion in a concentration-dependent manner. Incubation of digitonin-permeabilized cells with [gamma-32P]ATP resulted in 32Pi incorporation into a large number of proteins, detected as several major bands and darkened background in autoradiograms. Ca2+ and TPA increased phosphorylation of these proteins. Staurosporine and K-252a markedly inhibited Ca(2+)-induced and TPA-induced increases in protein phosphorylation as well as basal (0 Ca2+) protein phosphorylation in digitonin-permeabilized cells. Long term treatment (24 h) of adrenal medullary cells with 1 microM TPA markedly decreased total cellular protein kinase C activity to about 5.3% of control. Pretreatment of the cells with 1 microM TPA strongly inhibited the TPA-induced enhancement of catecholamine secretion whereas it did not cause large changes in total cellular catecholamine amounts, Ca(2+)-induced catecholamine secretion, and cAMP-induced enhancement of catecholamine secretion from digitonin-permeabilized cells. From these results we conclude that protein kinase C plays a modulatory role in catecholamine secretion rather than being essential for initiating catecholamine secretion.
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PMID:Role of protein kinase C in catecholamine secretion from digitonin-permeabilized bovine adrenal medullary cells. 188 99

1. Mouse atria were incubated with [3H]-noradrenaline and the outflow of radioactivity induced by electrical field stimulation (5 Hz, 60 s) was used as an index of noradrenaline release. Angiotensin II (1 x 10(-8) M) significantly enhanced the stimulation-induced (S-I) outflow of radioactivity. 2. Phorbol 12-myristate 13-acetate (0.001-1.0 x 10(-6) M) and phorbol 12, 13-dibutyrate (0.001-1.0 x 10(-6) M), protein kinase C activating phorbol esters, significantly enhanced the S-I outflow of radioactivity. Phorbol dibutyrate produced a greater maximal enhancement of S-I outflow of radioactivity than phorbol myristate acetate. The enhancement of S-I outflow of radioactivity produced by the combination of phorbol dibutyrate (1.0 x 10(-7) M) and phorbol myristate acetate (1.0 x 10(-7) M) was no greater than that produced by phorbol dibutyrate (1.0 x 10(-7) M) alone. The enhancement of S-I outflow of radioactivity produced by phorbol myristate acetate (1.0 x 10(-7) M) was constant whether the tissue was exposed for 15, 45 or 75 min. 3. When angiotensin II (1.0 x 10(-8) M) was present with the maximally effective concentration of phorbol dibutyrate (1.0 x 10(-7) M) it did not increase S-I outflow of radioactivity. 8-bromo-cyclic AMP (9.0 x 10(-5) M) by itself increased the S-I outflow of radioactivity and in the presence of the maximally effective concentration of phorbol dibutyrate the enhancement of S-I outflow of radioactivity produced by 8-bromo-cyclic AMP was maintained. 4. A protein kinase inhibitor, K-252a (1.0 x 10(-6) M), did not affect S-I outflow of radioactivity. K-252a significantly reduced the enhancement of S-I outflow of radioactivity produced by both phorbol myristate acetate (0.03 or 0.1 x 10(-6) M) and phorbol dibutyrate (0.01 or 1.0 x 10(-6) M). 5. K-252a (1.0 x 10(-6) M) blocked the enhancement of S-I outflow of radioactivity produced by angiotensin II (1.0 x 10(-8) M) and tetraethylammonium (1.0 x 10(-4) M). 6. These results suggest that angiotensin II receptors may enhance noradrenaline release through the pool of protein kinase C that is activated by phorbol dibutyrate.
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PMID:Evidence that angiotensin II enhances noradrenaline release from sympathetic nerves in mouse atria by activating protein kinase C. 193 83

The possibility that a permanent protein kinase C (PKC) activity is necessary for the maintenance of long-term potentiation (LTP) was investigated in rat hippocampal slices. The action of the potent kinase inhibitors K-252a, K-252b and staurosporine on LTP of orthodromic population excitatory postsynaptic potentials (EPSPs) recorded from CA1 pyramidal cells was tested both during tetanization and after establishment of LTP. Confirming earlier studies, all inhibitors applied during tetanization at a concentration of 50 nM eliminate late LTP. Only staurosporine, but not K-252a or K-252b, blocked already established late LTP (i.e. late application). Normal synaptic transmission was influenced only weakly by staurosporine. Considering that all inhibitors have similar potencies against PKC and were all effective if applied during tetanization these data suggest that the late maintenance of LTP depends on a staurosporine/H7-sensitive process (or kinase) rather than permanent activation of PKC.
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PMID:Differential effects of protein kinase inhibitors on pre-established long-term potentiation in rat hippocampal neurons in vitro. 202 Mar 82

Treatment of PC12h cells with nerve growth factor (NGF) induced a transient increase in the phosphorylation of a 35,000-dalton protein. This transient increase was observed also when extracts of NGF-treated cells were incubated with [gamma-32P]ATP. In the intact-cell phosphorylation system, treatment with N,2'-dibutyryladenosine 3',5'-cyclic monophosphate (dBcAMP) or 12-O-tetradecanoylphorbol 13-acetate (TPA) also induced a transient increase in the phosphorylation of the 35,000-dalton protein, but the effect was less than that of NGF. An effect comparable to that of NGF was obtained by the combination of dBcAMP and TPA. Pretreatment of PC12h cells with dBcAMP plus TPA for 3 days, which deprived the cells of their ability to respond to a rechallenge with dBcAMP, TPA, or dBcAMP plus TPA by increasing the rate of 35,000-dalton protein phosphorylation, caused only a slight attenuation of the NGF effect, directly indicating a minimal role of cyclic AMP (cAMP)-dependent protein kinase and protein kinase C in the mechanism of the NGF action. Pretreatment of the cells with K-252a, a protein kinase inhibitor, at a concentration of 300 nM almost completely blocked the action of NGF, but scarcely affected the action of dBcAMP, TPA, or dBcAMP plus TPA in intact-cell phosphorylation experiments. This NGF-sensitive 35,000-dalton protein was a ribosomal protein and identified as ribosomal protein S6. The results lead us to conclude that NGF activates some NGF-sensitive component(s), probably some specific protein kinase(s) other than cAMP-dependent protein kinase or protein kinase C, which is suppressed by K-252a and directly or indirectly activates a 35,000-dalton protein kinase(s) [S6 kinase(s)] to increase the rate of phosphorylation of the 35,000-dalton ribosomal protein (S6).
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PMID:Nerve growth factor-induced transient increase in the phosphorylation of ribosomal protein S6 mediated through a mechanism independent of cyclic AMP-dependent protein kinase and protein kinase C. 216 78

In this study, we investigated the possible involvement of protein kinase C in the inhibitory effect of neuropeptide Y (NPY) on the electrical stimulation-induced release of radioactivity from mouse atria incubated with [3H]-noradrenaline. The protein kinase C activators, phorbol dibutyrate (PDB, 0.001-1 mumol/l) and phorbol myristate acetate (PMA, 0.001-1 mumol/l), increased the release of noradrenaline in a concentration-dependent manner. Interestingly, the maximum effect on noradrenaline release was significantly greater for phorbol dibutyrate compared to phorbol myristate acetate. The enhancement produced by both phorbol esters was significantly reduced by the protein kinase C inhibitor, K-252a (1 mumol/l). In the presence of the concentration of either phorbol ester (PMA, 0.1 mumol/l, PDB 1 mumol/l), that was supramaximal for increasing the release of noradrenaline, NPY (0.3 mumol/l) significantly inhibited the release of noradrenaline. Moreover, in the presence of the protein kinase C inhibitors, K-252a (1 mumol/l) or polymyxin B (70 mumol/l), NPY (0.3 mumol/l) also significantly inhibited the release of noradrenaline. Therefore, it is concluded that protein kinase C is not involved in the prejunctional inhibitory effect of NPY on noradrenaline release in the mouse atria. Furthermore, since K-252a also inhibits cyclic AMP-dependent protein kinase, cyclic GMP-dependent protein kinase and myosin light chain kinase, it is likely that these kinases are also not involved in the inhibitory mechanism of NPY.
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PMID:Inhibition of noradrenaline release by neuropeptide Y does not involve protein kinase C in mouse atria. 225 91

The rise of the NGF mRNA pool which takes place following exposure of L-929 fibroblasts to serum was prevented in the presence of 5 microM K-252a, a compound which inhibits several species of protein kinase activities. To characterize further this phenomenon, L-929 cells growing in a serum-free medium were exposed to cyclic nucleotide analogs, to a divalent cation ionophore or to the phorbol ester PMA. Only this latter compound induced an enhancement of the NGF mRNA pool, suggesting an involvement of protein kinase C in the upregulation of the NGF transcripts. The effects of PMA or serum also require a synthesis of protein since the level of NGF transcripts remained stable in the presence of cycloheximide.
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PMID:Phorbol 12-myristate 13-acetate (PMA) increases the expression of the nerve growth factor (NGF) gene in mouse L-929 fibroblasts. 231 11

Studies of stimulus-response coupling have benefitted from the availability of permeabilization techniques, whereby putative second messengers and intracellular modulators can be introduced into the cell interior. Electropermeabilization, which uses high-intensity electric fields to breach the plasma membrane, creates small pores, permitting access of solutes with molecular masses below 700 KDa. Neutrophils permeabilized by this technique, but not intact cells, discharged lysosomal constituents when exposed to micromolar levels of Ca2+. Secretion by electroporated neutrophils was significantly enhanced by the presence of Mg-ATP (0.3-1.0 mM). Contrary to expectations, it was determined that ATP was not the only nucleotide which enhanced Ca2(+)-induced secretion in the presence of Mg2+. Not only could GTP, XTP, ITP, UTP or ADP partially or completely replace ATP, but even non-hydrolyzable nucleotides such as ADP beta S ATP gamma S, and App[NH]p were effective. GTP gamma S and GDP beta S were inhibitory, while Gpp[NH]p was inactive. None of these nucleotides induced secretion on its own. In contrast, neutrophils which were permeabilized and then washed, were only slightly activated by Mg-ATP and other nucleotides; even the response to Ca2+ alone was less. This hyporesponsiveness of washed cells proved to be due to a time-dependent deactivation of the permeabilized neutrophils taking place at 4 degrees C. In an effort to assess the role for protein kinase C (PKC) in secretion in this system, we examined the effects of phorbol myristate acetate (PMA), a PKC agonist. PMA enhanced degranulation induced by Ca2+ by lowering the requirement for this divalent cation; enhancement by PMA was not dependent upon exogenous ATP. Three inhibitors of PKC with varying specificity, namely H-7, K-252a, and staurosporine, all abrogated PMA-enhanced secretion. These agents also inhibited secretion stimulated by Ca2+ plus ATP in parallel with that induced by Ca2+ plus PMA, strongly suggesting a role for PKC in modulation of degranulation by ATP. Our results show that electropermeabilized neutrophils provide a convenient, useful model for stimulus-secretion coupling. These data also suggest that the 'requirement' for Mg-ATP, which has been observed in other permeabilized cell systems, is not simply for metabolic energy or as a substrate for kinases. It is possible that these nucleotides all interact with a recently described neutrophil receptor for adenine nucleotides or with a recently postulated exocytosis-linked G-protein.
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PMID:Ca2(+)-induced secretion by electropermeabilized human neutrophils. The roles of Ca2+, nucleotides and protein kinase C. 232 90


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