EC:2.7.11.13 - FACTA Search

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 previously reported that steroidogenesis is dramatically reduced in mouse Y1 adrenocortical cells which express the human apolipoprotein E gene (Y1-E cells). This suppression results in part from inhibition of cAMP-mediated events. In this report we have examined the expression of protein kinase C (PKC) in the Y1-E cell lines. Total cellular PKC activity in vitro is increased 3-5-fold in the Y1-E cell lines. PKC activity in the particulate and cytosolic fractions is increased to the same relative extent. Increased PKC activity reflects increased levels of PKC mRNA, as determined by Northern blot analysis, and PKC protein, as determined by immunoblot analysis. Increased expression of PKC in the Y1-E cell lines is accompanied by a 2-3-fold increase in diacylglycerol, an in vivo activator of PKC. To determine the contribution of elevated PKC expression to the Y1-E cell phenotype, we utilized the PKC inhibitors, staurosporine and calphostin C. Upon treatment with staurosporine or calphostin C, expression of P450-cholesterol side chain cleavage mRNA is increased severalfold to a level equal to, or greater than, basal expression in the Y1-neo control cell line. Treatment with calphostin C also results in recovery of steroidogenesis in the Y1-E cells to a level comparable to the basal level observed in the Y1-neo control cell line. These results indicate that increased expression of PKC in the Y1-E cell lines decreases basal steroidogenesis by suppressing P450-cholesterol side chain cleavage mRNA expression. Inhibition of PKC, however, does not reverse the block in cAMP-stimulated steroidogenesis in Y1-E cells, suggesting that the pleiotropic effects of apoE expression are not mediated entirely through altered PKC expression.
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PMID:Elevated levels of protein kinase C in Y1 cells which express apolipoprotein E decrease basal steroidogenesis by inhibiting expression of P450-cholesterol side chain cleavage mRNA. 151 29

The complete primary structure has been determined for an inhibitor protein of protein kinase C. The bovine brain-derived inhibitor has a pI of 6 and its N-terminal alanine residue is blocked by acetylation. Fragments obtained by chemical and enzymatic cleavage of the purified inhibitor were analyzed by Edman degradation, fast atom bombardment mass spectrometry, and tandem mass spectrometry. The results establish that the protein has a calculated average molecular mass of 13,690 daltons and contains 125 amino acid residues with the following sequence: (sequence: see text) The inhibitor does not show significant homology with any other known protein. Circular dichroism of the freshly prepared apoprotein indicated a secondary structural content of 23% alpha-helix, 31% beta-sheet, and 11% beta-turn. Immobilization on nitrocellulose followed by exposure to a 65Zn2(+)-containing overlay solution showed that, like protein kinase C itself, the inhibitor is a zinc-binding protein, although the sequence does not reveal a "zinc finger" structure. Competition with 10-fold molar excess Ca2+ or Mg2+ did not reduce the zinc-binding specificity of this inhibitor.
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PMID:Amino acid sequence and characterization of a protein inhibitor of protein kinase C. 230 77

Fragments of the lipophosphoglycan of Leishmania donovani were generated by phospholipase C digestion and mild acid hydrolysis. The fragments were purified and examined for inhibitory activity on protein kinase C isolated from rat brains. On a molar basis, the 1-O-alkylglycerol portion of LPG exhibited the most inhibitory activity, whereas the carbohydrate domain was not as effective. In addition, several glycolipid antigens from L. major, which contain short carbohydrate chains attached to phosphatidylinositol, were also efficient inhibitors of the enzyme. These results are consistent with the hypothesis that protein kinase C may be a key target for the parasites to overcome within host macrophages.
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PMID:Inhibitory effects on protein kinase C activity by lipophosphoglycan fragments and glycosylphosphatidylinositol antigens of the protozoan parasite Leishmania. 252 91

We have demonstrated previously that cultured rat ovarian granulosa cells synthesize and secrete apoE, and this production of apoE is increased by agents that stimulate protein kinase A (cyclic AMP-dependent enzyme) (for example, cholera toxin) and protein kinase C (Ca2+/phospholipid-dependent enzyme) (for example, 12-O-tetradecanoylphorbol-13-acetate, a phorbol ester). In the studies presented in this report, we have examined the effect of changes in cell cholesterol synthesis on the production of apoE by rat ovarian granulosa cells. Mevinolin, an inhibitor of hydroxymethylglutaryl (HMG)-CoA reductase (the rate-limiting enzyme in cholesterol synthesis), and 4,4,10 beta-trimethyl-trans-decal-3 beta-ol, an inhibitor of squalene cyclization, both attenuate the cholera toxin or 12-O-tetradecanoylphorbol-13-acetate stimulation of granulosa cell apoE secretion and apoE mRNA content in a dose-responsive manner. The inhibitory effect of mevinolin is reversed by the concomitant administration of mevalolactone, which provides the cells with the product of the reaction catalyzed by HMG-CoA reductase. Steroidogenesis per se has no effect on apoE production. Aminoglutethimide, which blocks the rate-limiting step in steroidogenesis, has no effect on apoE or apoE mRNA. The data indicate that products of HMG-CoA reductase (isoprenes, cholesterol and/or cholesterol metabolites) are required along with stimulators of protein kinases A and C, to regulate ovarian granulosa cell apoE production.
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PMID:Rat granulosa cell apolipoprotein E secretion. Regulation by cell cholesterol. 277 96

The concentration of HDL in the blood inversely correlates with the incidence of cardiovascular disease, probably related to the ability of these lipoproteins to efflux cholesterol from vascular cells. it is also possible that HDL affect the production or action of vasoactive peptides implicated in the development of vascular diseases. Therefore, we determined the effects of human HDL on the production and secretion of endothelin-1 (ET-1) from cultured bovine aortic endothelial cells. HDL produced a highly significant stimulation of endothelin secretion (maximum 240% of control), even at very low levels of lipoproteins (1 microgram/ml). HDL also stimulated the translation of ET-1 by twofold in the bovine aortic endothelial cells. In contrast, HDL had no significant effect on steady state mRNA levels, transcript degradation, or transcription. Stimulation of ET-1 secretion by HDL was dependent on protein kinase C activation. Purified apo A-I, the major apoprotein of HDL, increased ET-1 secretion and translation approximately 85% as potently as HDL. Our results indicate that low concentrations of human HDL strongly stimulate the production of ET-1, a powerful vasoconstrictor and mitogen for the vascular smooth muscle cell. We propose that HDL may participate in the regulation of vasomotor tone through this potentially important effect in the vasculature.
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PMID:High density lipoproteins stimulate the production and secretion of endothelin-1 from cultured bovine aortic endothelial cells. 813 43

Treatment of cholesterol-loaded mouse peritoneal macrophages with exogenous phospholipase C results in a specific and dose-dependent inhibition of apoE secretion. The inhibition of apoE secretion is secondary to the rapid and specific inhibition of its synthesis. The profound changes in rates of apoE synthesis are not accompanied by changes in the levels of apoE mRNA, an observation strongly suggestive of translational regulation of expression. The changes in apoE expression coincide with, or are preceded by a three-fold increase in membrane-bound protein kinase C activity, pointing out the potential importance of this signal transduction pathway in regulating apoE expression at a posttranscriptional locus.
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PMID:Exogenous phospholipase C specifically inhibits apoE expression in mouse peritoneal macrophages. 834 68

Human apolipoprotein E is a plasma lipoprotein that appears to play an important protective role in the development of atherosclerosis. While little is known about the regulation of apoE, recent studies have shown that cytokines repress apoE synthesis both in vivo and in vitro. Furthermore, we have recently shown that the endogenous apoE gene is negatively regulated by the nuclear trans-repressor BEF-1 in the human HepG2 cell line. In this study we demonstrate that treatment of HepG2 cells with the cytokine interleukin-1 and interleukin-6 resulted in the induction of an isoform of BEF-1, designated B1. The induction of the B1 isoform could be blocked by the protein kinase inhibitor staurosporine, suggesting that B1 is a phosphorylated form of BEF-1. As further support, the B1 isoform could also be induced by phorbol ester, and subsequently inhibited by staurosporine, implicating a role for protein kinase C-mediated phosphorylation. Quantitation of the levels of the BEF-1 isoforms, and studies in the presence of cyclohexamide, provided evidence for the phosphorylation of an existing intracellular pool of BEF-1, with no change in the total intracellular level. Under conditions that generated increased levels of the B1 isoform, there was a concomitant and proportional decrease in the level of apoE mRNA. The effect did not appear to be the result of improved binding to the apoE regulatory region as the DNA binding affinity of B1 was identical to native BEF-1. Our data suggest that the regulation of apoE by BEF-1 is modulated by differential phosphorylation, possibly through the protein kinase C pathway.
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PMID:Trans-repressor BEF-1 phosphorylation. A potential control mechanism for human ApoE gene regulation. 861 16

Iron regulatory protein 1 (IRP1) modulates iron metabolism by binding to mRNAs encoding proteins involved in the uptake, storage, and metabolic utilization of iron. Iron regulates IRP1 function by promoting assembly of an iron-sulfur cluster in the apo or RNA binding form, thereby converting it to the active holo or cytoplasmic aconitase form. In continuing our studies on phosphoregulation of IRP1 by protein kinase C (PKC), we noted that the purified apoprotein was more efficiently phosphorylated than was the form partially purified from liver cytosol by chromatography on DEAE-Sepharose which had characteristics of the [3Fe-4S] form of the protein. RNA binding measurements revealed a 20-fold increase in RNA binding affinity and a 4-5-fold higher rate of phosphorylation after removal of the Fe-S cluster from the highly purified [4Fe-4S] form. Phosphorylation of apo-IRP1 by PKC was specifically inhibited by IRE-containing RNA. The RNA binding form had a more open structure as judged by its much greater sensitivity to limited cleavage by a number of proteases. N-Terminal sequencing of chymotryptic peptides of apo-IRP1 demonstrated an increased accessibility to proteolysis of sites (residues 132 and 504) near or within the putative cleft of the protein, including regions that are thought to be involved in RNA binding (residues 116-151) and phosphoregulation (Ser 138). Enhanced cleavage was also observed in the proposed hinge linker region (residue 623) on the surface of the protein opposite from the cleft. Taken together, our results indicate that significant structural changes occur in IRP1 during cluster insertion or removal that affect the accessibility to RNA binding and phosphorylation sites.
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PMID:The iron-sulfur cluster of iron regulatory protein 1 modulates the accessibility of RNA binding and phosphorylation sites. 909 25

Calexcitin/cp20 is a low molecular weight GTP- and Ca2+-binding protein, which is phosphorylated by protein kinase C during associative learning, and reproduces many of the cellular effects of learning, such as the reduction of potassium currents in neurons. Here, the secondary structure of cloned squid calexcitin was determined by circular dichroism in aqueous solution and by Fourier transform infrared spectroscopy both in solution and on dried films. The results obtained with the two techniques are in agreement with each other and coincide with the secondary structure computed from the amino acid sequence. In solution, calexcitin is one-third in alpha-helix and one-fifth in beta-sheet. The conformation of the protein in solid state depends on the concentration of the starting solution, suggesting the occurrence of surface aggregation. The secondary structure also depends on the binding of calcium, which causes an increase in alpha-helix and a decrease in beta-sheet, as estimated by circular dichroism. The conformation of calexcitin is independent of ionic strength, and the calcium-induced structural transition is slightly inhibited by Mg2+ and low pH, while favored by high pH. The switch of calexcitin's secondary structure upon calcium binding, which was confirmed by intrinsic fluorescence spectroscopy and nondenaturing gel electrophoresis, is reversible and occurs in a physiologically meaningful range of Ca2+ concentration. The calcium-bound form is more globular than the apoprotein. Unlike other EF-hand proteins, calexcitin's overall lipophilicity is not affected by calcium binding, as assessed by hydrophobic liquid chromatography. Preliminary results from patch-clamp experiments indicated that calcium is necessary for calexcitin to inhibit potassium channels and thus to increase membrane excitability. Therefore the calcium-dependent conformational equilibrium of calexcitin could serve as a molecular switch for the short term modulation of neuronal activity following associative conditioning.
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PMID:Secondary structure and Ca2+-induced conformational change of calexcitin, a learning-associated protein. 931 73

Interaction of HDL with cells activates protein kinase C (PKC), a process that may be important in stimulating efflux of excess cellular cholesterol. Here we report that HDL treatment of cholesterol-loaded fibroblasts increases 32P labeling of three acidic phosphoproteins. These phosphoproteins, called pp80, pp27, and pp18 based on apparent M(r) in kD, were also phosphorylated by acute treatment of cells with phorbol myristate acetate, suggesting that they are regulated in response to PKC activation. The HDL-stimulated phosphorylation of pp80 and pp18 was significant after only 30 seconds and was sustained for at least 30 and 120 minutes, respectively, while increased phosphorylation of pp27 was transient, reaching a maximum at 10 minutes. Both pp27 and pp18 were phosphorylated on serine/threonine residues, whereas pp80 was phosphorylated on serine/threonine and tyrosine residues. Immunoprecipitation studies suggested that pp80 is the myristoylated alanine-rich C kinase substrate protein, but the identities of pp27 and pp18 are unknown. HDL and trypsin-digested HDL stimulated phosphorylation of pp80 and pp27, while purified apoA-I, apoA-II, or apoE had no stimulatory effects, indicating that the active component in HDL was trypsin resistant and unlikely to be an apolipoprotein. Conversely, HDL, apoA-I, apoA-II, and apoE all stimulated pp18 phosphorylation, while trypsin-digested HDL had less effect, consistent with pp18's being responsive to HDL apolipoproteins. Treatment of cholesterol-depleted cells with apoA-I also stimulated phosphorylation of pp18, but only transiently. These results suggest that HDL interaction with cells activates diverse PKC-mediated pathways that target different phosphoproteins. Of these three phosphoproteins, only pp18 has a phosphorylation response consistent with its being involved in apolipoprotein-mediated lipid transport.
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PMID:Phosphoproteins regulated by the interaction of high-density lipoprotein with human skin fibroblasts. 940 45

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