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)

We have compared the properties of a rat aorta-derived protein kinase C substrate (p75) with those of 80 kDa kinase C substrates from rat brain (MARCKS) and rabbit aorta (p80). Rat aortic p75 appeared to be closely related to rat brain MARCKS on the basis of: solubility in perchloric acid and trichloroacetic acid, heat stability, isoelectric point (pI approximately 4.2), overall V8 protease phosphopeptide map, and immunocrossreactivity with an antibody directed against the N-terminal domain of MARCKS. However, p75 could be distinguished from rat brain MARCKS and from the rabbit aorta-derived p80 on the basis of its consistently more rapid electrophoretic mobility in SDS-containing gels, and in terms of a unique proteolytic phosphopeptide found in MARCKS but not in aortic p75. We conclude that p75 probably belongs to the family of protein kinase C substrates represented by MARCKS, and that differences in post-translational processing (glycosylation) or mRNA processing may account for the unique properties of the p75 protein in rat aortic tissue.
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PMID:Comparison of an endogenous protein kinase C substrate in rat aorta with rat brain MARCKS. 133 18

Treatment of SH-SY5Y human neuroblastoma cells with the protein kinase inhibitor staurosporine, induced both morphological and functional differentiation in these cells. The effects of staurosporine were comparable to those induced by the protein kinase C (PKC) activator, 12-O-tetradecanoyl phorbol 13-acetate (TPA), with respect to induction of neuronal differentiation, i.e. neurite outgrowth, inhibition of DNA synthesis, induction and down-regulation of c-myc protein expression, induction of mRNA for both neuropeptide Y (NPY) and growth associated protein 43 (GAP-43) and stimulation of tyrosine hydroxylase expression. Staurosporine failed to translocate PKC to the membrane fraction or to stimulate phosphorylation of the endogenous PKC substrate M(r) 80,000 (p80). Instead, staurosporine inhibited TPA-induced phosphorylation of p80.
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PMID:Staurosporine induces a neuronal phenotype in SH-SY5Y human neuroblastoma cells that resembles that induced by the phorbol ester 12-O-tetradecanoyl phorbol-13 acetate (TPA). 134 95

Endothelin (ET), a potent stimulator of atrial natriuretic factor (ANF) secretion in atrial myocyte cultures, has been hypothesized to act via the stimulation of protein kinase C (PKC). This study was carried out in order to determine if ET activates PKC in atrial cultures and whether this activation fully accounts for the effects of ET on ANF secretion. By monitoring the phosphorylation of p80 upon exposure to phorbol ester or ET, it was shown that ET activated PKC in atrial cultures, but to a lesser extent than phorbol ester. In contrast, ET stimulated ANF secretion to a level five times greater than phorbol ester, indicating that PKC activation alone does not fully account for the effects of ET on ANF secretion. Down-regulation of PKC or exposure to the PKC inhibitor 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride (H7) resulted in a 50% decrease in ET-stimulated ANF secretion. Interestingly, increasing calcium influx with BAY K 8644 stimulated ANF secretion but did not effect the phosphorylation of p80, indicating a PKC-independent pathway of ANF secretion. Similarly, a component of ET-stimulated secretion that required calcium influx was independent of PKC activation but was sensitive to the Ca2+/calmodulin kinase (CaMK) inhibitor KN-62. Complete inhibition of ET-mediated ANF secretion was obtained only in the presence of both H7 and KN-62. These results demonstrate that ET activates PKC in atrial myocyte cultures and that the full effects of ET on ANF secretion require both PKC and Ca2+/calmodulin kinase activities.
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PMID:Protein kinase C and calmodulin kinase are required for endothelin-stimulated atrial natriuretic factor secretion from primary atrial myocytes. 137 96

Cell lines stably overexpressing protein kinase C (PKC)-alpha were previously described by us. These cell lines were generated by the introduction of the full length cDNA coding for PKC-alpha into Swiss/3T3 cells. Here we show that activation of PKC-alpha by phorbol-esters induced in these cells specific phosphorylation of two cellular proteins p90 and p52. Phosphorylation of p80 (MARCKS protein), previously identified as a substrate for PKC, was also enhanced. Phosphorylated p90 and p52 proteins were associated with particulate membrane-enriched fractions and were extractable with the use of nonionic detergents. Time course analysis of phorbol-ester induced phosphorylation of p90 and p52 revealed maximal stimulation of phosphorylation after 15-30 min. Phosphamino acid analysis showed that phosphorylation of p90 and p52 occurred mainly on serine residues. Phosphorylation of p52 was also on threonine residues. Whereas, phorbol ester activation induced phosphorylation of both p90 and p52, the mitogens platelet-derived growth factor (PDGF) and fibroblast growth factor (FGF) enhanced phosphorylation of p90, but not p52. Thus, our studies showed the involvement of PKC-alpha in the regulation of p90 and p52 phosphorylation and provided direct evidence for the role of PKC-alpha in cellular signaling by PDGF and FGF. Moreover, the fact that phosphorylation of p52 was specific to phorbol ester activation may suggest its involvement in tumor promotion. Characterization of p90 and p52 will enable us to reveal the phosphorylation cascade activated downstream to PKC-alpha and to determine their role in mitogenic signaling and tumor promotion.
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PMID:Phosphorylation of p90 and p52 in response to phorbol-esters in Swiss/3T3 cells overexpressing protein kinase C-alpha. 142 77

Protein phosphorylation and protein kinase C (PKC) levels were analyzed in intact cultures of spontaneously transformed, chemically transformed, and untransformed mouse pulmonary epithelial cell lines. It was found that although the transformed cell lines contained about 80% less protein kinase C, measured as total enzyme activity or binding of [3H]phorbol ester, phosphorylation events after phorbol ester treatment could still be easily detected. A commonly described Mr 80-kDa protein kinase C substrate (p80, 80 K, MARKS) was identified using 2D-PAGE, following phosphorylation in intact cells, and found to have reduced availability for phosphorylation in the transformed cell lines C4SE9, C1SA5 and NULB5 in comparison to the untransformed C4E10 and C1C10. Available levels of p80 were further analyzed in heat-denatured extracts from all cell lines using partially purified bovine brain PKC and correlated well with changes seen in intact cells. It was also noted that all transformed cell lines contained large amounts of a family of phosphoproteins of Mr 55-65 kDa, that could not be detected in the untransformed cell lines and whose phosphorylation state was increased by protein kinase C activation. This protein was found to be located in the nucleus. Hence, spontaneously and chemically transformed mouse pulmonary epithelial cells exhibit reduced levels of PKC, along with an altered pattern of PKC-mediated phosphorylation.
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PMID:Altered levels and protein kinase C-mediated phosphorylation of substrates in normal and transformed mouse lung epithelial cells. 156 83

Erythropoietin, the prime regulator of red blood cell growth and differentiation, causes rapid changes in the phosphorylation of several integral plasma membrane proteins (Choi, H-S., Wojchowski, D. M., and Sytkowski, A. J. (1987) J. Biol. Chem. 262, 2933-2936; Choi, H-S., Bailey, S. C., Donahue, K. A., Vanasse, G. J., and Sytkowski, A. J. (1990) J. Biol. Chem. 265, 4143-4148). In the present study we have demonstrated that erythropoietin's signal is transduced rapidly to the cytosol resulting in specific phosphorylation/dephosphorylation events. Erythropoietin treatment of Rauscher murine erythroleukemia cells previously labeled with [32P]orthophosphate results in a rapid increase in phosphorylation of two cytosolic proteins, designated pp96 and pp80, and a decrease in phosphorylation of another protein, designated pp90. The relative molecular mass and pI of pp80 are virtually identical to those reported for the protein kinase C substrate p80, or "MARCKS protein." Treatment of the cells with 12-O-tetradecanoylphorbol-13-acetate also increases pp80 but not pp96 phosphorylation, suggesting that erythropoietin triggers a protein kinase C-dependent pathway to pp80 and a protein kinase C-independent pathway to pp96. The effect of erythropoietin on pp96 phosphorylation was also shown in nontransformed erythroid cells isolated from the spleens of phenylhydrazine-treated mice. In contrast, almost no 32P labeling of pp80 or pp90 was detected, and pp80 and pp90 protein were nearly absent from these normal cells. These differences in expression and phosphorylation of erythropoietin-sensitive phosphoproteins may be related to the growth factor independence or dependence of the erythroid cells.
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PMID:Erythropoietin induces cytosolic protein phosphorylation and dephosphorylation in erythroid cells. 174 84

The phospholipase C-mediated hydrolysis of phosphatidylcholine has been shown recently to be activated by a number of agonists. Muscarinic receptors, which trigger various signal transduction mechanisms including inhibition of adenylate cyclase through Gi, have been shown to be potent stimulants of this novel phospholipid degradative pathway. We demonstrate here, by exogenous addition of Bacillus cereus phosphatidylcholine-hydrolyzing phospholipase C, that phosphatidylcholine breakdown mimics the ability of carbachol to inhibit adenylate cyclase. This effect is sensitive to pertussis toxin and is entirely dependent on the presence of protein kinase C. This kinase is also required for the inhibition by carbachol of adenylate cyclase. These results suggest that the activation of phosphatidylcholine breakdown by phospholipase C may play an important role linking or favoring the coupling muscarinic receptors to Gi. Results presented here also show that phospholipase C-mediated hydrolysis of phosphoinositides by exogenous addition of Bacillus thuringiensis phosphoinositide-hydrolyzing phospholipase C does not affect adenylate cyclase, despite the fact that protein kinase C is translocated to an extent similar to that produced by the hydrolysis of phosphatidylcholine. According to the results shown here, both phospholipases also differ in their ability to down-regulate protein kinase C as well as to phosphorylate p80 and to transmodulate the binding of epidermal growth factor, two well established effects of protein kinase C in Swiss 3T3 fibroblasts. This emphasizes the complexity, from a functional point of view, of protein kinase C activation "in vivo."
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PMID:Mechanism of inhibition of adenylate cyclase by phospholipase C-catalyzed hydrolysis of phosphatidylcholine. Involvement of a pertussis toxin-sensitive G protein and protein kinase C. 184 88

The peptide hormone erythropoietin is a major regulator of red blood cell production. While red blood cell development has been studied intensively, little is known about the intracellular signaling events that follow the binding of erythropoietin to its receptor on the target cell. We report here that erythropoietin-induced activation of the immediate early gene c-myc requires protein kinase C and that the binding of erythropoietin causes rapid phosphorylation of the major protein kinase C substrate, p80. Our results also argue for modulation of activity of a second signal transduction element in addition to protein kinase C.
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PMID:Erythropoietin increases c-myc mRNA by a protein kinase C-dependent pathway. 198 55

The CD44 molecule, a molecule which has been previously known as Hermes, Pgp-1, extracellular matrix receptor III, and In(Lu)-related p80, is currently thought to be involved in several steps of normal immune cell function, including lymphocyte adhesion to high endothelial venules and to the extracellular matrix and T cell activation. We now demonstrate that triggering of CD44 on T lymphocytes by anti-CD44 mAb promotes cell adhesion. The induced homotypic adhesion is mediated by lymphocyte function-associated antigen-1 (LFA-1), because it was inhibited by anti-LFA-1 antibodies and not by anti-LFA-3 antibodies. This notion is supported by the temperature and Mg2+ dependence which is characteristic of LFA-1-mediated adhesion. Moreover, the sensitivity of CD44-induced adhesion to AMG and H7, which both prevent the activation of protein kinase C, and to cytochalasin B, which inhibits microfilament formation, suggests that the activation of the LFA-1 pathway via CD44 involves protein kinase C activation and requires an intact cytoskeleton.
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PMID:Triggering of the CD44 antigen on T lymphocytes promotes T cell adhesion through the LFA-1 pathway. 224 3

BALB/MK is a nontransformed epithelial cell line derived from primary BALB/c mouse keratinocytes that requires epidermal growth factor (EGF) for growth. Using a defined-medium culture system, we investigated the role of physiological concentrations of EGF on phosphoinositide metabolism in these cells. The results show that EGF rapidly activates phospholipase-C mediated phosphoinositide metabolism resulting in the generation of the second messengers inositol 1,4,5-trisphosphate and diacylglycerol. These metabolites control intracellular Ca2+ levels and activate protein kinase C, respectively. Protein kinase C activation in response to EGF was evidenced by the phosphorylation of the acidic 80 kilodalton endogenous protein substrate (p80) specific for this kinase. In contrast, insulin, which acts in concert with EGF to cause BALB/MK cell proliferation, had no effect on phosphoinositide metabolism nor led to any additional stimulation when added in combination with EGF. Taken together, our results show that rapid alterations in phosphoinositide metabolism and protein kinase C activation are associated with the normal mitogenic response of keratinocytes to EGF.
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PMID:Epidermal growth factor activates phosphoinositide turnover and protein kinase C in BALB/MK keratinocytes. 245 6


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