EC:2.7.11.13 - FACTA Search

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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)

An immobilized hepatocyte preparation was used to show that both vasopressin and glucagon could desensitize the ability of glucagon to increase intracellular cyclic AMP concentrations. This process was not dependent on any influx of extracellular Ca2+ and was not mediated by any rise in the intracellular level of Ca2+. The protein kinase C-selective inhibitors chelerythrine, staurosporine and calphostin C acted as potent inhibitors of the desensitization process but with various degrees of selectivity regarding their ability to inhibit the desensitizing actions of glucagon and vasopressin. The protein phosphatase inhibitor okadaic acid was just as potent as vasopressin and glucagon in causing desensitization. Treatment of hepatocyte membranes with alkaline phosphatase restored to near control levels the ability of glucagon to stimulate adenylate cyclase activity in membranes from both glucagon- and vasopressin-treated (desensitized) hepatocytes. It is suggested that the desensitization of glucagon-stimulated adenylate cyclase activity involves a reversible phosphorylation reaction with the likely target being the glucagon receptor itself.
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PMID:A role for protein kinase C-mediated phosphorylation in eliciting glucagon desensitization in rat hepatocytes. 753 13

Using isoenzyme-specific antisera, we have studied the distribution of protein kinase C isoforms in fetal mouse organs at the developmental age of 17 days. Two different sets of antibodies, produced by different manufacturers, were employed in this study. The specificity of the antisera was tested by immunoblotting experiments using whole fetal mouse extracts. Immunohistochemistry was carried out by means of an alkaline phosphatase-conjugated secondary antibody. Analysis of fetal mouse longitudinal cryostat sections stained with the antibodies demonstrated a distinct distribution of protein kinase C isoforms in the tissues. Protein kinase C-alpha and C-beta I were present in all tissues examined, whereas the C-beta II isoform was absent in the lung and the liver. Protein kinase C-gamma was identified in brain, spinal ganglia, and adrenal gland. The C-epsilon isoenzyme was abundantly expressed in spinal ganglia and in the smooth muscle cells of the bronchial wall. Antisera to C-zeta and C-eta isoforms heavily stained liver, kidney, and spinal ganglia, whereas the C-theta isozyme was mainly detected in brain, stomach and kidney. Thus, protein kinase C-alpha, C-beta I, C-beta II, C-zeta, C-eta and C-theta were the isoforms present in many of the organs investigated. The two sets of antibodies gave slightly different results that might be ascribed to the different epitopes recognized by the antisera. One set of antisera was employed to investigate the distribution of the isoforms in selected organs from an earlier developmental age (15 days) and from adult animals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Distribution of the extended family of protein kinase C isoenzymes in fetal organs of mice: an immunohistochemical study. 760 70

PKN, a novel protein kinase with a catalytic domain homologous to that of the protein kinase C (PKC) family and unique N-terminal leucine-zipper-like sequences, was identified by molecular cloning from a human hippocampus cDNA library [Mukai and Ono (1994) Biochem. Biophys. Res. Commun. 199, 897-904]. Recently we partially purified recombinant PKN from COS7 cells transfected with the cDNA construct encoding human PKN, and demonstrated that the recombinant PKN was activated by unsaturated fatty acids and limited proteolysis [Mukai, Kitagawa, Shibata et al. (1994) Biochem. Biophys. Res. Commun. 204, 348-356]. The present work has focused on the further purification and characterization of PKN from native rat tissue. Immunochemical measurement revealed that PKN was found in every tissue, and was especially abundant in testis, spleen and brain; subcellular fractionation of rat brain showed that half of the PKN was localized in the soluble cytosolic fraction. PKN was purified approx. 8000-fold to apparent homogeneity from the cytosolic fraction of rat testis by DEAE-cellulose chromatography, ammonium sulphate fractionation and chromatography on butyl-Sepharose, heparin-Sepharose, Mono Q and protamine-CH-Sepharose. The enzyme migrates as a band of apparent molecular mass 120 kDa. Using serine-containing peptides based on the pseudosubstrate sequence of PKC-delta as phosphate acceptors, the kinase activity was stimulated several-fold by 40 microM unsaturated fatty acids or by detergents such as 0.04% sodium deoxycholate and 0.004% SDS. In the absence of modifiers, protamine sulphate, myelin basic protein and synthetic peptides based on the pseudosubstrate site of PKCs or ribosomal S6 protein were good substrates for phosphorylation by the kinase. In the presence of 40 microM arachidonic acid the kinase activity of PKN for these phosphate acceptors was increased 2-18-fold. The autophosphorylation activity of purified PKN was partially inhibited by pretreatment with alkaline phosphatase. These properties appear to distinguish PKN from many protein kinases isolated previously.
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PMID:Purification and characterization of a fatty acid-activated protein kinase (PKN) from rat testis. 765 8

The regulation of synthesis and phosphorylation of osteopontin in relation to avian epiphyseal growth-plate chondrocyte differentiation was studied in situ and in culture. Osteopontin gene expression was evaluated in the tibia growth-plate of 3-week-old chickens by in situ hybridization. The gene was expressed mainly at the lower hypertrophic zone where cartilage matrix is calcified and endochondral bone formation is initiated. Within the hypertrophic region, a poorly labeled area separated the layer of osteopontin-positive hypertrophic chondrocytes from those associated with endochondral bone formation. In culture, proliferative chondrocytes show no alkaline phosphatase activity in contrast to ascorbic acid-treated chondrocytes which display the enzyme activity. Chondrocytes not treated with ascorbic acid, exhibited lower levels of osteopontin mRNA than the treated cells. The phorbol ester TPA--an activator of protein kinase C--and to a lesser extent FGF but not EGF, stimulated osteopontin gene expression. Chondrocytes secreted low levels of phosphorylated osteopontin to the medium. EGF treatment resulted in the appearance of phosphorylated osteopontin in the medium, without affecting the synthesis of other proteins. FGF and TGF beta, but not IGF-I or IGF-II, also caused phosphorylation of osteopontin. Ascorbic acid-treated chondrocytes secreted higher levels of phosphorylated osteopontin than the non-treated cells, but addition of FGF or TPA did not stimulate osteopontin phosphorylation any further. Parathyroid hormone caused a dose-dependent attenuation of osteopontin phosphorylation and inhibited the EGF-dependent osteopontin phosphorylation. The results suggest that osteopontin gene expression and phosphorylation in chondrocytes are regulated by separate mechanisms. The response to the various controlling agents varies with the state of differentiation. Both processes--the synthesis and phosphorylation of osteopontin--are under the control of local growth factors which are involved in bone growth and calcification.
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PMID:Synthesis and phosphorylation of osteopontin by avian epiphyseal growth-plate chondrocytes as affected by differentiation. 765 84

We present evidence for the presence of specific, high-affinity binding sites for tritiated phorbol 12,13-dibutyrate on osteosarcoma-derived (HT-3) cells. Activation of protein kinase C by a phorbol ester resulted in an inhibition of alkaline phosphatase activity and the accumulation of prostaglandin E2. Indomethacin blocked prostaglandin E2 production and enhanced alkaline phosphatase activity. These data suggest that prostaglandin E2 is enhanced by activation of protein kinase C, and in turn, alkaline phosphatase activity is reduced.
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PMID:Activation of protein kinase C and the involvement of prostaglandin E2 in the inhibition of osteosarcoma-derived cell alkaline phosphatase activity. 766 74

Cystic fibrosis transmembrane conductance regulator (CFTR) is a regulated Cl- channel; in secretory epithelia, it is located in the apical membrane where it regulates transepithelial Cl- secretion. Previous studies have shown that cAMP-dependent protein kinase (PKA) can phosphorylate and activate CFTR Cl- channels. We asked whether other kinases would phosphorylate CFTR in vitro and activate CFTR Cl- channels in excised, inside-out patches of membrane from NIH 3T3 fibroblasts stably expressing recombinant CFTR. We found that both Ca(2+)-independent and Ca(2+)-dependent isoforms of protein kinase C (PKC) activated the CFTR Cl- channel. Consistent with this finding, PKC also phosphorylated CFTR in vitro. In contrast, the multifunctional Ca2+/calmodulin-dependent protein kinase failed to either activate or to phosphorylate CFTR Cl- channels, suggesting that this enzyme has no direct effect on CFTR. We found that cGMP-dependent protein kinase (cGK) (purified from bovine lung) phosphorylated CFTR in vitro. However, cGMP failed to increase the apical membrane Cl- permeability in human airway epithelia, and addition of cGMP, ATP, and cGK failed to activate CFTR Cl- channels. These results suggest that if cGK phosphorylates CFTR in vivo, it does so at sites not involved in CFTR Cl- channel activation. Because cAMP-dependent activation of CFTR Cl- channels and Cl- secretion in intact cells is reversible, we asked whether specific phosphatases can dephosphorylate and inactivate CFTR Cl- channels. Addition of protein phosphatase 2A (PP2A) decreased PKA-activated current by 67% within 10 min. The phosphatase inhibitor calyculin-A blocked the effect of PP2A. In contrast, neither protein phosphatases 1, 2B, nor two preparations of alkaline phosphatase inactivated PKA-phosphorylated CFTR Cl- channels. The effects of protein phosphatases on CFTR function were paralleled by their ability to dephosphorylate CFTR in vitro. Our data indicate that CFTR Cl- channels can be phosphorylated and activated by PKA as well as by Ca(2+)-dependent and Ca(2+)-independent isoforms of PKC and can be dephosphorylated and thus inactivated by PP2A.
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PMID:Regulation of the cystic fibrosis transmembrane conductance regulator Cl- channel by specific protein kinases and protein phosphatases. 767 14

Recombinant human granulocyte colony-stimulating factor (rhG-CSF) not only enhanced the growth of HL-60 cells, but also significantly increased NBT-reducing ability and alkaline phosphatase (ALP) activity of the cells, which were enhanced by the treatment with retinoic acid (RA). Protein kinase C inhibitors (H-7 and staurosporine) significantly suppressed this induction of ALP. The pretreatment with RA followed by rhG-CSF treatment showed almost the same degree of ALP activity as that induced by the simultaneous treatment with RA and rhG-CSF. This study suggests that RA and rhG-CSF are the potent inducers of ALP activity of HL-60 cells and protein kinase C is supposed to have a role in this induction of ALP.
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PMID:Alkaline phosphatase activity in the human promyelocytic leukemia cell line, HL-60, induced by retinoic acid and recombinant human granulocyte colony-stimulating factor. 768 28

The inhibitory glycine receptor (GlyR) is composed of polypeptide subunits that contain intracellular consensus sequences for phosphorylation by protein kinase C (PKC). During whole-cell recording from rat hippocampal neurones, we observed a time-dependent increase of the glycine-induced membrane current. After 22 min the amplitude was 260 + 13% of the initial control response. PKC was involved in the modulation of hippocampal glycine receptors, since the observed effect was more prominent when the phorbol ester PMA, an activator of PKC, was included in the patch pipette. The action of PMA was mimicked by applying the '5-HT2 receptor agonist, alpha-methyl-serotonin, to the cells. The time-dependent increase in glycine responses was reduced by either tamoxifen, an inhibitor of PKC, or by alkaline phosphatase. Protein kinase A and tyrosine kinase were not involved as modulatory drugs of these kinases had no effect. These results provide direct evidence for the regulation of GlyR function by PKC in rat hippocampal neurones.
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PMID:Modulation of hippocampal glycine receptor channels by protein kinase C. 775 15

Phosphorylation of CTP synthetase (EC 6.3.4.2, UTP:ammonia ligase (ADP-forming)) from Saccharomyces cerevisiae protein kinase C was examined. Using pure CTP by synthetase as a substrate, protein kinase C activity was dose- and time-dependent and required calcium, diacylglycerol, and phosphatidylserine for full activation. Protein kinase C activity was also dependent on the concentration of CTP synthetase. Protein kinase C phosphorylated CTP synthetase on serine and threonine residues in vitro whereas the enzyme was primarily phosphorylated on serine residues in vivo. Phosphopeptide mapping analysis of CTP synthetase phosphorylated in vitro and in vivo indicated that the enzyme was phosphorylated on more than one site. Most of the phosphopeptides derived from CTP synthetase phosphorylated in vivo were the same as those derived from CTP synthetase phosphorylated by protein kinase C in vitro. The stoichiometry of the phosphorylation of native CTP synthetase was 0.4 mol of phosphate/mol of enzyme whereas the stoichiometry of the phosphorylation of alkaline phosphatase-treated CTP synthetase was 2.2 mol of phosphate/mol of enzyme. This indicated that CTP synthetase was purified in a phosphorylated state. Phosphorylation of CTP synthetase resulted in a 3-fold activation in enzyme activity whereas alkaline phosphatase treatment of CTP synthetase resulted in a 5-fold decrease in enzyme activity. Overall, the results reported here were consistent with the conclusion that CTP synthetase was regulated by protein kinase C phosphorylation.
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PMID:Phosphorylation of CTP synthetase from Saccharomyces cerevisiae by protein kinase C. 779 79

We have investigated a possible role for protein phosphorylation in nuclear transport in semi-intact cells, prepared by digitonin permeabilization of rat F-111 fibroblasts. Treatment of semi-intact cells with alkaline phosphatase abolished the import of nuclear transport substrates, namely, signal peptide-albumin conjugates, as well as their signal-dependent binding at the nuclear pores, but did not affect the morphology of the cells, in particular their cytoskeletal network. Authentic transport and functional binding of the karyophilic protein at the nuclear envelope could be restored by incubation of phosphatase-treated cells with cytosol enriched in protein kinase C or with purified protein kinase A (catalytic subunit). Restoration of transport was blocked by specific inhibitors of these kinases. Since the protein phosphorylation required for nuclear transport appeared to be a reasonably stable modification, characterization of the phosphorylated proteins was attempted in kinase reactions with radiolabeled ATP. Two proteins of 60-62 kDa were the predominant substrates phosphorylated by both protein kinase C and protein kinase A under conditions wherein nuclear transport was restored. Our results suggest a requirement for phosphorylation of one or more proteins for binding of a karyophilic protein at the nuclear envelope.
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PMID:Essential role of protein phosphorylation in nuclear transport. 781 12

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