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)

A high Mr synthetase core complex isolated from higher eukaryotes contains aminoacyl-tRNA synthetases specific for arginine, aspartic acid, glutamic acid, glutamine, isoleucine, leucine, lysine, methionine, and proline. Previously, five of the synthetases were shown to be phosphorylated in reticulocytes, and the glutaminyl- and aspartyl-tRNA synthetases were shown to be selectively phosphorylated in response to 8-bromo cAMP (Pendergast, A. M., Venema, R. C., and Traugh, J. A. (1987) J. Biol. Chem. 262, 5939-5942). Exposure of reticulocytes to phorbol 12-myristate 13-acetate stimulates the selective phosphorylation of one synthetase in the complex, glutamyl-tRNA synthetase. Only the glutamyl-tRNA synthetase is modified to a significant extent when the purified complex is phosphorylated in vitro by protein kinase C; up to 0.7 mol of phosphate is incorporated per mol of synthetase. Two-dimensional phosphopeptide mapping shows a single tryptic phosphopeptide, which is identical for the enzyme modified in vitro by protein kinase C or in phorbol 12-myristate 13-acetate-stimulated cells. Phosphorylation in vivo is reproducibly accompanied by a 38 +/- 10% reduction in aminoacylation activity of partially purified glutamyl-tRNA synthetase assayed in vitro. Phosphorylation in vitro has no detectable effect on aminoacylation. This difference may be due to the absence of a required effector molecule which alters activity by interaction with the phosphorylated synthetase. Glutamyl-tRNA synthetase is one of a growing number of translational components, including initiation factors, which are coordinately modified by protein kinase C in response to phorbol 12-myristate 13-acetate.
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PMID:Protein kinase C phosphorylates glutamyl-tRNA synthetase in rabbit reticulocytes stimulated by tumor promoting phorbol esters. 200 62

A high Mr complex isolated from rabbit reticulocytes contains valyl-tRNA synthetase and the four subunits of elongation factor 1 (EF-1). Previously, valyl-tRNA synthetase and the alpha, beta, and delta subunits of EF-1 were shown to be phosphorylated in reticulocytes in response to phorbol 12-myristate 13-acetate (PMA). Phosphorylation of the complex was accompanied by an increase in both valyl-tRNA synthetase and EF-1 activity (Venema, R. C., Peters, H. I., and Traugh, J. A. (1991) J. Biol. Chem., 266, 11993-11998). To investigate phosphorylation of the valyl-tRNA synthetase EF-1 complex in vitro by protein kinase C, the complex has been purified to apparent homogeneity from rabbit reticulocytes by gel filtration on Bio-Gel A-5m, affinity chromatography on tRNA-Sepharose, and fast protein liquid chromatography on Mono Q. Valyl-tRNA synthetase and the beta and delta subunits of EF-1 in the complex are highly phosphorylated by protein kinase C (0.5-0.9 mol of phosphate/mol of subunit), while EF-1 alpha is phosphorylated to a lesser extent (0.2 mol/mol). However, the isolated EF-1 alpha subunit is highly phosphorylated (2.0 mol/mol). Phosphopeptide mapping of EF-1 alpha shows that the same sites are modified by protein kinase C in vitro and in PMA-treated cells. Phosphorylation of the valyl-tRNA synthetase.EF-1 complex results in a 3-fold increase in activity of EF-1 as measured by poly(U)-directed polyphenylalanine synthesis; no effect of phosphorylation is detected with valyl-tRNA synthetase and isolated EF-1 alpha. Thus, phosphorylation and activation of EF-1 by protein kinase C, which has been shown to occur in vitro as well as in reticulocytes, may have a role in PMA stimulation of translational rates.
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PMID:Phosphorylation of elongation factor 1 (EF-1) and valyl-tRNA synthetase by protein kinase C and stimulation of EF-1 activity. 206 27

Phorbol esters such as phorbol myristate acetate (PMA) were employed to examine the involvement of protein kinase C in the regulation of protein synthesis in intact GH3 pituitary tumor cells. Amino acid incorporation increased as a function of time of pretreatment with these agents; 4-8- and 2-3-fold stimulations were observed for Ca2+-depleted and -restored preparations, respectively, following 2 h of exposure. PMA enhanced incorporation of amino acid into all detectable polypeptide species. Lysates of PMA-treated cells incorporated amino acid more efficiently than did lysates of untreated controls. Cells slowed at initiation by Ca2+ depletion responded to treatment with PMA with the production of low molecular weight polysomes and a concomitant decrease in 80 S monomers. In Ca2+-restored preparations, which form large polysomes, PMA treatment resulted in a decrease in 80 S monomers and a shift in average polysomal size from smaller to larger molecular weight. Ribosomal transit times, however, were not altered. PMA-stimulated amino acid incorporation and polysome formation were either eliminated or reduced significantly by actinomycin D and could not be ascribed to increased amino acid uptake or methionylation of tRNA. Substances which elevate cAMP in GH3 cells mimicked phorbol ester in its actions on protein synthesis. It is proposed that GH3 cells, in response to various stimuli, rapidly synthesize an mRNA that subsequently increases the synthesis of a rate-limiting component of translational initiation. Evidence that this pathway for translational control may function in alternative cell types is also presented.
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PMID:Stimulation of protein synthesis in pituitary cells by phorbol esters and cyclic AMP. Evidence for rapid induction of a component of translational initiation. 282 97

The eukaryotic tRNA:guanine transglycosylase (TGT) catalyses the base-for-base exchange of guanine for queuine (the q-base)--a nutrition factor for eukaryotes--at position 34 of the anticodon of tRNAsGUN (where 'N' represents one of the four canonical tRNA nucleosides), yielding the modified tRNA nucleoside queuosine (Q). This unique tRNA modification process was investigated in HeLa cells grown under either aerobic (21% O2) or hypoxic conditions (7% O2) after addition of chemically synthesized q-base to q-deficient cells. While the q-base was always inserted into tRNA under aerobic conditions, HeLa cells lost this ability under hypoxic conditions, however, only when serum factors became depleted from the culture medium. The inability to insert q into tRNA did not result from a lack of substrate, because the q-base accumulated within these cells against the concentration gradient, suggesting the presence of an active transport system for this base in HeLa cells. The activity of the TGT enzyme was restored after treatment of the cells with the protein kinase C activator, TPA, even in the presence of mRNA or protein synthesis inhibitors. The results indicate that the eukaryotic tRNA modifying enzyme, TGT, is a downstream target of activated protein kinase C.
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PMID:Involvement of protein kinase C in the control of tRNA modification with queuine in HeLa cells. 763 Jul 26

Transfer RNA-guanine ribosyltransferase (TGRase) irreversibly incorporates queuine into the first position in the anticodon of four tRNA isoacceptors. Rat brain protein kinase C (PKC) was shown to stimulate rat liver TGRase activity. TGRase preparations derived from rat liver have been observed to decrease in activity over time in storage at -20 or -70 degrees C. Contamination of the samples by phosphatases was indicated by a p-nitrophenylphosphate conversion test. The addition of micromolar concentrations of the phosphatase inhibitors sodium pyrophosphate and sodium fluoride into TGRase isolation buffers resulted in a greater return of TGRase activity than without these inhibitors. Inactive TGRase preparations were reactivated to their original activity with the addition of PKC. In assays combining both TGRase and PKC enzymes, inhibitors of protein kinase C (sphingosine, staurosporine, H-7 and calphostin C) all blocked the reactivation of TGRase, whereas activators of protein kinase C (calcium, diacylglycerol and phosphatidyl serine) increased the activity of TGRase. None of the PKC modulators affected TGRase activity directly. Alkaline phosphatase, when added to assays, decreased the activity of TGRase and also blocked the reactivation of TGRase with PKC. Denaturing PAGE and autoradiography was performed on TGRase isolates that had been labelled with 32P by PKC. The resulting strong 60 kDa band (containing the major site for phosphorylation) and weak 34.5 kDa band (containing the TGRase activity) are suggested to associate to make up a 104 kDa heterodimer that comprises the TGRase enzyme. This was corroberated by native and denaturing size-exclusion chromatography. These results suggest that PKC-dependent phosphorylation of TGRase is tied to efficient enzymatic function and therefore control of the queuine modification of tRNA.
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PMID:Activation of transfer RNA-guanine ribosyltransferase by protein kinase C. 763 Jul 27

Initiation factor eIF-2 (a trimer of subunits alpha, beta and gamma) attaches the initiator Met-tRNA to the ribosome during the initiation of translation in eukaryotic cells. Both the alpha and beta subunits can be phosphorylated although the sites in the beta-subunit have not previously been fully identified. Here we identify the sites at which eIF-2 beta is phosphorylated in vitro by three well-characterised protein kinases, casein kinase-2 (which phosphorylates serine residues-2 and -67), protein kinase C (serine-13) and cAMP-dependent protein kinase (serine-218). This constitutes an essential prerequisite for studying the phosphorylation of eIF-2 beta in vivo. Indeed, we present evidence that at least one of these sites (serine-67) is phosphorylated in reticulocytes. The major kinase activity against eIF-2 beta in reticulocyte lysates appears in CK-2 and protein phosphatase-2A is the principal enzyme responsible for dephosphorylation of eIF-2 beta phosphorylated by this kinase.
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PMID:Identification of novel phosphorylation sites in the beta-subunit of translation initiation factor eIF-2. 802 72

Growth factors stimulate cellular protein synthesis, but the intracellular signaling mechanisms that regulate initiation of mRNA translation in neurons have not been clarified. A rate-limiting step in the initiation of protein synthesis is the formation of the ternary complex among GTP, eukaryotic initiation factor 2 (eIF-2), and the initiator tRNA. Here we report that genistein, a specific tyrosine kinase inhibitor, decreases tyrosine kinase activity and the content of phosphotyrosine proteins in cultured primary cortical neurons. Genistein inhibits protein synthesis by > 80% in a dose-dependent manner (10-80 micrograms/ml) and concurrently decreases ternary complex formation by 60%. At the doses investigated, genistein depresses tyrosine kinase activity and concomitantly stimulates PKC activity. We propose that a protein tyrosine kinase participates in the initiation of protein synthesis in neurons, by affecting the activity of eIF-2 directly or through a protein kinase cascade.
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PMID:Depression of neuronal protein synthesis initiation by protein tyrosine kinase inhibitors. 822 95

Mitogenic stimulation of quiescent mammalian cells triggers an array of early events crucial for cell cycle progression. Here we show that the activity of the anoxic stress protein, lactate dehydrogenase 6/k, transiently increased after mitogenic stimulation of serum-starved HeLa cells. Regulation of lactate dehydrogenase 6/k activity in early G1 depended on the activity of a receptor tyrosine kinase and on protein and mRNA synthesis, but did not involve protein kinase C. The guanine analog, queuine, an ubiquitously occurring tRNA base of bacterial origin, suppressed the mitogen-induced protein synthesis and also the transient increase in lactate dehydrogenase 6/k activity. The results suggest that queuine relieves hypoxic stress resulting from mitogenic stimulation by suppressing protein synthesis during G0/G1 transition.
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PMID:Mitogenic stimulation of HeLa cells increases the activity of the anoxic stress protein, LDH 6/k: suppression by queuine. 828 Jan 49

A fragment of the cDNA encoding a rat valyl-tRNA synthetase (TrsVal)-like protein was cloned from a rat cDNA library in lambda gt11 using an oligodeoxyribonucleotide (oligo) probe. Three independent plaque clones containing the human TrsVal cDNA were then isolated from a lambda gt10 human erythroleukemia cDNA library using the rat cDNA fragment as the hybridization probe. Sequence analyses of the cDNA fragments provided a 3.2-kb sequence with an open reading frame that contained the 'HIGH' synthetase signature sequence and the tRNA 3'-end-binding motif, KMSKS, and putative Val-binding motif, EWCISRQ. The sequence was extended to the 3' end of the cDNA by the polymerase chain reaction using an internal primer and an oligo(dT) adapter. The deduced 1051-amino-acid sequence shares 65% identity with yeast TrsVal, and contains a highly basic N-terminal region, a newly evolved protease-sensitive region in sequence close to the C terminus, and several sites for protein kinase C phosphorylation. A 3-kb cDNA fragment was sub-cloned into plasmid pSVL and expressed in COS-7 cells; up to a sevenfold increase in TrsVal activity was obtained. These results confirm the cloning and sequencing of a human TrsVal-encoding cDNA.
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PMID:Cloning, sequencing and expression of a cDNA encoding mammalian valyl-tRNA synthetase. 842 57

The hepatitis B virus X gene product transactivates a variety of cellular and viral genes. The mechanism for X induction of RNA polymerase (pol) III genes was investigated. By using Drosophila S-2 cells stably transformed with the X gene, the transient expression of a tRNA gene is enhanced. Comparing the transcriptional activities of extracts derived from these cells, all three types of RNA pol III promoters are stimulated by X. Interestingly, both S-2 and rat 1A cells stably transformed with the X gene produce increased cellular levels of the TATA-binding protein (TBP). By using various kinase inhibitors, it was found that the X-mediated increases in both transcription and TBP are dependent upon protein kinase C activation. Since TBP is a subunit of TFIIIB, the activity of this component fractionated from extracts derived from control and X-transformed cells was analyzed. These studies reveal that TFIIIB activity is substantially more limiting in control cells and that TFIIIB isolated from X-transformed cells has increased activity in reconstitution assays compared with TFIIIB isolated from control cells. Conversely, comparison of TFIIIC from control and X-transformed cell extracts revealed that there is relatively little change in its ability either to reconstitute transcription or to bind to DNA and that there is no change in the catalytic activity of RNA pol III. Studies were performed to determine whether directly increasing cellular TBP alone could enhance RNA pol III gene transcription. Transient expression of a TBP cDNA in rat 1A cells was capable of stimulating transcription activity from the resultant extracts in vitro. Together, these results demonstrate that one mechanism by which X mediates transactivation of RNA poll III genes is by increasing limiting TBP via the activation of cellular signaling pathways. The discovery that X increases cellular TBP, the universal transcription factor, provides a novel mechanism for the function of a viral transactivator protein and may explain the ability of X to produce such large and diverse effects on cellular gene expression.
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PMID:The hepatitis B virus X protein increases the cellular level of TATA-binding protein, which mediates transactivation of RNA polymerase III genes. 852 37


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