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)

Several lines of evidence indicate that phosphorylation of the 25 kDa mRNA cap binding protein (eIF-4E) stimulates the efficiency of translational initiation. While the protein kinases which catalyze this reaction in intact cells have not been completely identified, evidence suggests that protein kinase C phosphorylates serine residues of eIF-4E in intact cells. In this study we demonstrate that protein kinase C also phosphorylates threonine residues of recombinant human eIF-4E in vitro. Phosphorylation of threonine and serine was observed over a range of eIF-4E and salt concentrations. However, relatively low levels of phosphorylation were seen even under optimal conditions. Similar results were observed with native eIF-4E purified from human erythrocytes. These findings demonstrate that protein kinase C can phosphorylate both serine and threonine residues of eIF-4E in vitro, but suggest that protein kinase C may not be the primary enzyme that phosphorylates eIF-4E in vivo.
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PMID:Protein kinase C phosphorylates both serine and threonine residues of the mRNA cap binding protein eIF-4E. 140 50

Translation initiation factor eIF-4E, which binds to the 5' cap structure of eukaryotic mRNAs, is believed to play an important role in the control of cell growth. Consistent with this, overexpression of eIF-4E in fibroblasts results in their malignant transformation. The activity of eIF-4E is thought to be regulated by phosphorylation on a single serine residue (Ser-53). Treatment of rat pheochromocytoma (PC12) cells with nerve growth factor (NGF) strongly curtails their growth and causes their differentiation into cells that resemble sympathetic neurons. The present study shows that eIF-4E is rapidly phosphorylated in PC12 cells upon NGF treatment, resulting in a significant increase in the steady-state levels of the phosphorylated protein. In contrast, epidermal growth factor, a factor which elicits a weak mitogenic response in PC12 cells, did not significantly enhance eIF-4E phosphorylation. We also show that although the mitogen and tumor promoter, phorbol 12-myristate-13-acetate, is able to induce phosphorylation of eIF-4E in PC12 cells, the NGF-mediated increase is primarily a protein kinase C-independent response. The NGF-induced enhancement of eIF-4E phosphorylation is abrogated in PC12 cells expressing a dominant inhibitory ras mutant (Ser-17 replaced by Asn), indicating that eIF-4E phosphorylation is dependent on a ras signalling pathway. As phosphorylation of eIF-4E effects translation initiation, these results suggest that NGF-mediated and ras-dependent eIF-4E phosphorylation may play a role in switching the pattern of gene expression during the differentiation of PC12 cells.
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PMID:Phosphorylation of translation initiation factor eIF-4E is induced in a ras-dependent manner during nerve growth factor-mediated PC12 cell differentiation. 154 5

Treatment of quiescent primary human fibroblasts with tumor necrosis factor (TNF) alpha, TNF-beta, interleukin-1, interferon (IFN) alpha, IFN beta, or IFN gamma induced Egr-1 mRNA. In primary human fibroblasts TNF-alpha and TNF-beta were mildly mitogenic and IFN alpha and IFN gamma were growth inhibitory. However, in HeLa cells TNF but not IFN induced the expression of Egr-1 mRNA, while both cytokines inhibited HeLa cell division. Kinetic measurements of Egr-1 gene expression showed that TNF-alpha, TNF-beta, and IFN gamma increased the cellular concentration of Egr-1 mRNA within 30 min. A maximum induction of Egr-1 mRNA was detected at approximately 60 min which dropped to basal level by 180 min. Induction was inhibited by H7 and staurosporine but not by HA1004, indicating the involvement of a functional protein kinase C. The Egr-1 message was translated and the cellular Egr-1 protein detected within 60 min of cytokine treatment. Despite similar Egr-1 mRNA induction, the amount of Egr-1 protein translated in IFN alpha- and IFN gamma-treated cells was lower than in those treated with TNF-alpha and TNF-beta, and highest in the EGF-treated primary human fibroblasts. Indeed, the level of Egr-1 protein translated in these cells correlated proportionally with both the phosphorylation of cap-binding protein (eukaryotic initiation factor) and the amount of cellular DNA synthesis in the variously treated fibroblasts. These results suggest that both growth stimulatory and inhibitory cytokines can regulate Egr-1 gene expression at the transcriptional and translational level. However, the combination of these regulatory controls may determine the cellular concentration of the Egr-1 gene product and hence, its effect on cell proliferation.
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PMID:Regulation of the Egr-1 gene by tumor necrosis factor and interferons in primary human fibroblasts. 173 Jun 54

Eukaryotic initiation factor-4E (eIF-4E) binds to the cap structure of eukaryotic mRNAs and is a component of the cap-binding protein complex eIF-4F. eIF-4E is present in cells in limiting concentrations and is phosphorylated both in vivo and in vitro by protein kinase C (PKC). Recently, eIF-4E has been implicated as an intracellular transducer of extracellular growth signals; microinjection of recombinant eIF-4E into quiescent NIH 3T3 cells induced DNA synthesis. In the present report, the mitogenic activity of eIF-4E was examined after coinjection with PKC. Recombinant eIF-4E was phosphorylated by PKC at the same amino acid that is phosphorylated in cultured cells and reticulocytes in response to phorbol ester. At limiting concentrations of eIF-4E, coinjection with PKC induced a fivefold increase in the mitogenic activity of eIF-4E. Injection of PKC alone or coinjection of eIF-4E with cAMP-dependent protein kinase (PKA) or the Raf protein had no effect. These results suggest that the mitogenic activity of eIF-4E is enhanced by PKC-specific phosphorylation and that phosphate addition is a rate-limiting step in eIF-4E activity.
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PMID:Modulation of the mitogenic activity of eukaryotic translation initiation factor-4E by protein kinase C. 191 48

A 10-50-fold, biphasic increase in the rate of 32Pi labeling of eIF-4E was closely correlated with the induction of protein and glycoprotein biosynthesis when resting murine splenic B lymphocytes (B cells) were activated by bacterial lipopolysaccharide or the combination of phorbol 12-myristate 13-acetate and ionomycin. The fraction of eIF-4E which was phosphorylated only increased from 46% in resting cells to 83% in lipopolysaccharide-activated cells. This discrepancy between the increase in the fraction of phosphorylated eIF-4E and the increase in 32Pi labeling suggested that the phosphoryl group of eIF-4E turns over slowly in resting B cells compared with activated cells. The turnover rate for the eIF-4E phosphate moiety in lipopolysaccharide-activated cells was rapid (t1/2 = 2 h) in comparison to the eIF-4E polypeptide chain, which did not turn over detectably in 6 h. Neither protein kinase C nor a cyclic nucleotide-dependent protein kinase appeared to be involved in eIF-4E phosphorylation in B cells, based on the observations that the metabolic labeling of eIF-4E by 32Pi was insensitive to the protein kinase inhibitors H-7 and HA1004, and that maximal labeling occurred after protein kinase C activity was "down-regulated" to very low levels in phorbol 12-myristate 13-acetate/ionomycin-activated cells. Dephosphorylation in vivo was blocked by okadaic acid (IC50 = 200 nM). These results indicate that a rapid phosphorylation-dephosphorylation of eIF-4E is associated with high translation rates during the activation of B cells, and implicate protein phosphatase-1 (or possibly-2A) in the dephosphorylation of the initiation factor.
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PMID:Increased rate of phosphorylation-dephosphorylation of the translational initiation factor eIF-4E correlates with the induction of protein and glycoprotein biosynthesis in activated B lymphocytes. 224 37

Phosphorylation by protein kinase C of the mRNA cap binding protein purified as part of a cap binding protein complex (eIF-4F) or as a single protein (eIF-4E), has been examined. Significant phosphorylation (up to 1 mol of phosphate/mol of p25 subunit) occurs only when the protein is part of the eIF-4F complex. With purified eIF-4E, using the same conditions, up to 0.1 mol of phosphate can be incorporated. Tryptic phosphopeptide maps show that the site phosphorylated in the Mr 25,000 subunit of eIF-4F (eIF-4F p25) is the same as that modified in purified eIF-4E. Kinetic measurements obtained from initial rates indicate that the Km values for eIF-4F and eIF-4E are similar, although the Vmax is 5-6 times higher for the complex. Dephosphorylation of eIF-4F p25, previously phosphorylated with protein kinase C, occurs in reticulocyte lysate with a half-life of 15-20 min, whereas little dephosphorylation is observed after 15 min with the purified phosphorylated eIF-4E. Phosphorylation of eIF-4F on the p220 and p25 subunits does not affect the stability of the complex as indicated by gel filtration on Sephacryl S-300. However, addition of non-phosphorylated eIF-4E to the phosphorylated complex results in the dissociation of the complex. These results suggest that interaction of p25 with other subunits in the complex greatly affects phosphorylation/dephosphorylation of p25. Since the rate of phosphorylation/dephosphorylation is significantly greater in the complex, regulation of the cap binding protein by phosphorylation appears to occur primarily on eIF-4F.
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PMID:Association of initiation factor eIF-4E in a cap binding protein complex (eIF-4F) is critical for and enhances phosphorylation by protein kinase C. 235 12

The 25 kDa mRNA cap binding protein can be purified in a partially phosphorylated state and the extent of its phosphorylation appears to be regulated during heat shock and mitosis in mammalian cells. We demonstrated that a nonabundant serine protein kinase activity exists in rabbit reticulocytes that phosphorylates the 25 kDa cap binding protein in both the free (eIF-4E) and complexed (eIF-4F) state. This kinase was not inhibited by the cAMP-dependent protein kinase inhibitory peptide IAAGRTGRRNAIHDILVAA, did not phosphorylate S6 ribosomal protein, did not phosphorylate p220 of eIF-4F as protein kinase C does and no other substrates for this kinase were apparent in reticulocyte ribosomal salt wash. The molecular identity of this kinase, the specific site(s) of eIF-4E that it phosphorylates and its in vivo regulatory role remain to be studied.
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PMID:Identification of a protein kinase activity in rabbit reticulocytes that phosphorylates the mRNA cap binding protein. 296 1

Initiation factor 4E (eIF-4E) binds to the m7GTP-containing cap of eukaryotic mRNA and facilitates the entry of mRNA into the initiation cycle of protein synthesis. eIF-4E is a phosphoprotein, and the phosphorylated form binds to mRNA caps 3-4-fold more tightly than the nonphosphorylated form. A previous study indicated that the major phosphorylation site was Ser-53 (Rychlik, W., Russ, M. A., and Rhoads, R. E. (1987) J. Biol. Chem. 262, 10434-10437). In the present study, we synthesized the phosphopeptide expected to result from tryptic digestion of eIF-4E, O-phosphoseryllysine. Surprisingly, the tryptic and synthetic phosphopeptides did not comigrate electrophoretically. Accordingly, we redetermined the phosphorylation site by isolating a chymotryptic phosphopeptide on reverse phase high performance liquid chromatography. The peptide was sequenced by Edman degradation and corresponded to 198QSHADTATKSGSTTKNRF215. The site of phosphorylation was determined to be Ser-209 by four methods: the increase in the ratio of dehydroalanine to serine derivatives during Edman degradation, the release of 32P, the further digestion of the chymotryptic phosphopeptide with trypsin, Glu-C, and Asp-N, and site-directed mutagenesis of eIF-4E cDNA. The S209A variant was not phosphorylated in a rabbit reticulocyte lysate system, whereas the wild-type, S53A, and S207A variants were. This site falls within the consensus sequence for phosphorylation by protein kinase C.
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PMID:Phosphorylation of eukaryotic protein synthesis initiation factor 4E at Ser-209. 778 23

The eukaryotic polypeptide chain initiation factor 4F (eIF-4F), purified by m7GTP-Sepharose chromatography from whole extracts of Drosophila melanogaster embryos, consists of two subunits, the previously identified eIF-4E (35 kDa) (Maroto, F. G., and Sierra, J. M. (1989) Mol. Cell. Biol. 9, 2181-2190) and another of 200 kDa. Both subunits cosedimented through a sucrose density gradient containing 0.5 M KCl. In contrast to rabbit reticulocyte eIF-4F, we did not find any RNA-dependent ATPase associated with the Drosophila factor. As shown previously for eIF-4E, the p200 subunit was also required for the translation of endogenous mRNAs in cell-free systems from Drosophila embryos. Only the eIF-4E subunit was able to cross-link to the m7G cap structure. However, an efficient cross-linking of the p200 subunit to an uncapped mRNA was observed. Both subunits were phosphorylated in vitro by protein kinase C from rat brain. As an extension of our previous results (Zapata, J. M., Maroto, F. G., and Sierra, J. M. (1991) J. Biol. Chem. 266, 16007-16014) we found that the translation of the heat shock mRNAs was independent of both of the eIF-4F subunits.
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PMID:Purification and characterization of eukaryotic polypeptide chain initiation factor 4F from Drosophila melanogaster embryos. 802 64

The stimulation of translation in starfish oocytes by the maturation hormone, 1-methyladenine (1-MA), requires the activation or mobilization of both initiation factors and mRNAs [Xu and Hille, Cell Regul. 1:1057, 1990]. We identify here the translational initiation complex, eIF-4F, and the guanine nucleotide exchange factor for eIF-2, eIF-2B, as the rate controlling components of protein synthesis in immature oocytes of the starfish, Pisaster orchraceus. Increased phosphorylation of eIF-4E, the cap binding subunit of the eIF-4F complex, is coincident with the initial increase in translational activity during maturation of these oocytes. Significantly, protein kinase C activity increased during oocyte maturation in parallel with the increase in eIF-4E phosphorylation and protein synthesis. An increase in the activities of cdc2 kinase and mitogen-activated myelin basic protein kinase (MBP kinase) similarly coincide with the increase in eIF-4E phosphorylation. However, neither cdc2 kinase nor MBP kinase phosphorylates eIF-4E in vitro. Casein kinase II activity does not change during oocyte maturation, and therefore, cannot be responsible for the activation of translation. Treatment of oocytes with phorbol 12-myristate 13-acetate, an activator of protein kinase C, for 30 min prior to the addition of 1-MA resulted in the inhibition of 1-MA-induced phosphorylation of eIF-4E, translational activation, and germinal vesicle breakdown. Therefore, protein kinase C may phosphorylate eIF-4E, after very early events of maturation. Another possibility is that eIF-4E is phosphorylated by an unknown kinase that is activated by the cascade of reactions stimulated by 1-MA. In conclusion, our results suggest a role for the phosphorylation of eIF-4E in the activation of translation during maturation, similar to translational regulation during the stimulation of growth in mammalian cells.
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PMID:Maturation hormone induced an increase in the translational activity of starfish oocytes coincident with the phosphorylation of the mRNA cap binding protein, eIF-4E, and the activation of several kinases. 811 71

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