EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies indicated that amino acids may activate the protein kinase activity of the target of rapamycin (TOR) and thereby augment and/or mimic the effects of insulin on protein synthesis, p70(S6k) phosphorylation, and multicellular clustering in adipocytes. To identify the individual amino acids responsible for these effects, the present study focused on the TOR substrate and translational repressor 4E-BP1. A complete mixture of amino acids stimulated the phosphorylation of 4E-BP1, decreasing its association with eukaryotic initiation factor eIF-4E. Studies on subsets of amino acids and individual amino acids showed that L-leucine was the amino acid responsible for most of the effects on 4E-BP1 phosphorylation; however, the presence of other amino acids was required to observe a maximal effect. The stimulatory effect of leucine was stereospecific and not mimicked by other branched chain amino acids but was mimicked by the leucine metabolite alpha-ketoisocaproate (alpha-KIC). The effect of alpha-KIC, but not leucine, was attenuated by the transaminase inhibitor (aminooxy)acetate. The latter result indicates that the effects of alpha-KIC required its conversion to leucine. Half-maximal stimulation of 4E-BP1 phosphorylation occurred at approximately 430 microM; therefore, the response was linear within the range of circulating concentrations of leucine found in various nutritional states.
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PMID:Amino acid effects on translational repressor 4E-BP1 are mediated primarily by L-leucine in isolated adipocytes. 981 71

The mammalian target of rapamycin, mTOR, has been shown to be an upstream regulator of translational effectors. In the present study, in order to detect potential molecules involved in the mTOR signaling, an in vitro phosphorylation assay using mTOR immunoprecipitates from HEK293 cells was carried out. In addition to the autophosphorylation of mTOR, 32P incorporation into 80-kDa (pp80) and 175-kDa (pp175) bands was observed in mTOR immunoprecipitates. The protein kinase activity toward the recombinant eIF-4E binding protein 1 (4E-BP1) was also detected as previously described. When mTOR immunoprecipitates from HEK293 cells were prepared in the presence of a detergent, Nonidet P-40, the 4E-BP1 kinase activity and 32P incorporation into pp175 dramatically diminished, while the phosphorylation of mTOR and 32P incorporation into pp80 did not change. These results raised a possibility that mTOR may associate with protein cofactors, some of which may be involved in the regulation of kinase activities associated with mTOR.
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PMID:Characterization of the phosphoproteins and protein kinase activity in mTOR immunoprecipitates. 982 48

Regulation of translation of mRNAs coding for specific proteins plays an important role in controlling cell growth, differentiation, and transformation. Two proteins have been implicated in the regulation of specific mRNA translation: eukaryotic initiation factor eIF4E and ribosomal protein S6. Increased phosphorylation of eIF4E as well as its overexpression are associated with stimulation of translation of mRNAs with highly structured 5'-untranslated regions. Similarly, phosphorylation of S6 results in preferential translation of mRNAs containing an oligopyrimidine tract at the 5'-end of the message. In the present study, leucine stimulated phosphorylation of the eIF4E-binding protein, 4E-BP1, in L6 myoblasts, resulting in dissociation of eIF4E from the inactive eIF4E.4E-BP1 complex. The increased availability of eIF4E was associated with a 1.6-fold elevation in ornithine decarboxylase relative to global protein synthesis. Leucine also stimulated phosphorylation of the ribosomal protein S6 kinase, p70(S6k), resulting in increased phosphorylation of S6. Hyperphosphorylation of S6 was associated with a 4-fold increase in synthesis of elongation factor eEF1A. Rapamycin, an inhibitor of the protein kinase mTOR, prevented all of the leucine-induced effects. Thus, leucine acting through an mTOR-dependent pathway stimulates the translation of specific mRNAs both by increasing the availability of eIF4E and by stimulating phosphorylation of S6.
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PMID:Leucine regulates translation of specific mRNAs in L6 myoblasts through mTOR-mediated changes in availability of eIF4E and phosphorylation of ribosomal protein S6. 1020 76

Increased phosphorylation of the translational repressor protein 4E-BP1 was found in the cell line derived from the tumor induced in Syrian hamster by Rous sarcoma virus (RSV). This was accompanied by its dissociation from the complex with initiation factor eIF4E. The ribosomal S6 protein kinase p70S6k is supposed to be regulated by the same or a closely related rapamycin-sensitive signalling pathway to that which modulates 4E-BP1. Phosphorylation and activity of p70S6k were found to be also increased in RSV-transformed H19 cells that express significantly higher amounts of the Src protein (p60src) relative to the non-transformed hamster fibroblasts NIL-2. The increased activity and phosphorylation of p70S6k were blocked by rapamycin, indicating that the rapamycin-sensitive pathway is involved in its regulation in v-src-transformed hamster fibroblasts. In agreement with this, rapamycin reduced the expression of elongation factor eEF1alpha (whose translation is regulated by a rapamycin-sensitive mechanism thought to involve p70S6k) and did not affect the production of a housekeeping protein, alpha-tubulin, in these cells. Synthesis of Src protein was also inhibited in cells treated with rapamycin. However, treatment of cells with a concentration of rapamycin sufficient to completely inhibit the activity and phosphorylation of p70S6k resulted in only partial de-phosphorylation of 4E-BP1 and its re-association with eIF4E in the transformed cells, indicating that additional rapamycin-insensitive mechanisms/pathways are implicated in the control of 4E-BP1 phosphorylation in RSV-transformed hamster fibroblasts. Over-expression of eIF4E favours cell proliferation and can lead to a transformed phenotype, while over-expression of 4E-BP1 has the opposite effect. The altered signalling to the phosphorylation of 4E-BP1 in RSV-transformed cells, which leads to its dissociation from eIF4E and thus relief of inhibition of eIF4E function, may therefore represent an important regulatory mechanism in malignant cell growth.
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PMID:Rapamycin-resistant phosphorylation of the initiation factor-4E-binding protein (4E-BP1) in v-SRC-transformed hamster fibroblasts. 1036 46

Eukaryotic initiation factor (eIF) 4E binds to the 5'-cap structure of eukaryotic mRNA and has a central role in the control of cell proliferation. We have shown previously that the stimulation of cultured Xenopus kidney cells with serum resulted in the activation of protein synthesis, enhanced phosphorylation of eIF4E and increased binding of the adapter protein, eIF4G, and poly(A)-binding protein (PABP) to eIF4E to form the functional initiation factor complex, eIF4F/PABP. We now show that cellular stresses such as arsenite, anisomycin and heat shock also result in increased phosphorylation of eIF4E, eIF4F complex formation and the association of PABP with eIF4G, in conditions under which the rate of protein synthesis is severely inhibited. In contrast with reported effects on mammalian cells, the stress-induced increase in eIF4F complex formation occurs in the absence of changes in the association of eIF4E with its binding proteins 4E-BP1 or 4E-BP2. The stress-induced changes in eIF4E phosphorylation were totally abrogated by the p38 mitogen-activated protein (MAP) kinase inhibitor SB203580, and were partly inhibited by the phosphoinositide 3-kinase inhibitor LY294002 and the mammalian target of rapamycin (mTOR) inhibitor rapamycin. However, eIF4E phosphorylation was unaffected by extracellular signal-regulated protein kinase (MAP kinase) inhibitor PD98059. These results indicate that cellular stresses activate multiple signalling pathways that converge at the level of eIF4F complex formation to influence the interactions between eIF4E, eIF4G and PABP.
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PMID:Cellular stress in xenopus kidney cells enhances the phosphorylation of eukaryotic translation initiation factor (eIF)4E and the association of eIF4F with poly(A)-binding protein. 1047 62

Eukaryotic initiation factor eIF4E-binding protein 1 (eIF4E-BP1), or PHAS-I, is multiply phosphorylated by insulin-stimulated protein kinase(s). Estimates for the number of phosphorylation sites range from two to greater than eight. IEF/SDS/PAGE can precisely differentiate protein isoforms based on their differences in charge (phosphorylation) and molecular mass. In this study, the diversity of eIF4E-BP1 isoforms was determined using IEF/SDS/PAGE/immunoblotting of unfractionated cell lysates. To investigate the molecular regulation of phosphorylation, alterations in eIF4E-BP1 in response to heat shock in HeLa cells were determined. In exponentially growing cells, 8-10 prominent eIF4E-BP1 isoforms were detected. Following heat shock, a rapid, temperature-dependent dephosphorylation of eIF4E-BP1 occurs roughly concurrent with protein synthesis inhibition; during recovery from heat shock rephosphorylation of eIF4E-BP1 parallels restoration of protein synthesis. However, eIF4E-BP1 and eIF4E kinases remain highly active during heat shock, as okadaic acid treatment restores phosphorylation of both factors in heat shocked cells. eIF4E-BP1 dephosphorylation is associated with eIF4E dissociation from large molecular mass complexes and increased binding to eIF4E-BP1. The amount of eIF4E-BP1 converted to the dephosphorylated state is sufficient to titrate all the eIF4E present. eIF4E-BP1 phosphorylation changes regulated by heat shock also occur in Drosophila. Of the 10 isoforms of eIF4E-BP1 resolved by IEF/SDS/PAGE, at least seven are labelled with [32P] and all 10 are recognized by (eIF4E-BP1)-specific antibodies. These results identify a complex set of eIF4E-BP1 phosphorylation isoforms; changes in the expression of these isoforms in response to stresses such as heat shock may contribute to translation repression.
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PMID:Striking multiplicity of eIF4E-BP1 phosphorylated isoforms identified by 2D gel electrophoresis regulation by heat shock. 1050 5

Growth factor induced activation of phosphoinositide 3-kinase and protein kinase B (PKB) leads to increased activity of the mammalian target of rapamycin (mTOR). This subsequently leads to increased phosphorylation of eIF4E binding protein-1 (4EBP1) and activation of p70 ribosomal S6 protein kinase (p70(S6K)), both of which are important steps in the stimulation of protein translation. The stimulation of translation is attenuated in cells deprived of amino acids and this is associated with the attenuation of 4EBP1 phosphorylation and p70(S6K) activation. It has been suggested that PKB regulates mTOR function by phosphorylation although direct phosphorylation of mTOR by PKB has not been demonstrated previously. In the present work, we have found that PKB directly phosphorylates mTOR and, using phosphospecific antibodies, we have shown this phosphorylation occurs at Ser(2448). Insulin also induces phosphorylation on Ser(2448) and this effect is blocked by wortmannin but not rapamycin, consistent with the effect being mediated by PKB. Amino-acid starvation rapidly attenuated the reactivity of the Ser(2448) phosphospecific antibody with mTOR and this could not be restored by either insulin stimulation of cells or incubation with PKB in vitro. Our findings demonstrate that mTOR is a direct target for PKB and support the conclusion that regulation of phosphorylation of Ser(2448) is a point of convergence for the counteracting regulatory effects of growth factors and amino acid levels.
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PMID:Mammalian target of rapamycin is a direct target for protein kinase B: identification of a convergence point for opposing effects of insulin and amino-acid deficiency on protein translation. 1056 25

Eukaryotic initiation factor eIF2B and eukaryotic elongation factor eEF2 each mediate regulatory steps important for the overall regulation of mRNA translation in mammalian cells and are activated by insulin. Here, we demonstrate that their activation by insulin requires the presence, in the medium in which the cells are maintained, of both amino acids and glucose: insulin only induced activation of eIF2B and the dephosphorylation of eEF2 when cells were exposed to both types of nutrient. Other translational regulators, e.g. the 70 kDa ribosomal protein S6 kinase (p70 S6 kinase) and the eIF4E binding protein 1, 4E-BP1, are also regulated by insulin but their control does not require glucose, only amino acids. The effects of nutrients on the activation of eIF2B do not reflect changes in the phosphorylation of eIF2 (and, by inference, operation of a kinase analogous to yeast Gcn2p), or a requirement for nutrients for inactivation of glycogen synthase kinase-3 or dephosphorylation of eIF2B. Nutrients did not affect the ability of insulin to activate protein kinase B. These data show that activation by insulin of p70 S6 kinase, which modulates the translation of specific mRNAs, depends on the availability of amino acids whereas regulation of factors involved in overall activation of translation (eIF2B, eEF2) requires both amino acids and glucose. These results add substantially to the emerging evidence that nutrients themselves modulate functions of mammalian cells and indicate that (i) nutrients modulate the activation of eIF2B and eEF2 through as-yet unidentified mechanisms and (ii) regulation of p70 S6 kinase and 4E-BP1 by insulin requires other inputs in addition to protein kinase B.
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PMID:Nutrients differentially regulate multiple translation factors and their control by insulin. 1056 26

Previously we have reported that induction of apoptosis in Jurkat cells results in an inhibition of overall protein synthesis with the selective and rapid cleavage of eukaryotic initiation factor (eIF) 4GI. For the cleavage of eIF4GI, caspase-3 activity is both necessary and sufficient in vivo, in a process which does not require signaling through the p38 MAP kinase pathway. We now show that activation of the Fas/CD95 receptor promotes an early, transient increase in the level of eIF2alpha phosphorylation, which is temporally correlated with the onset of the inhibition of translation. This is associated with a modest increase in the autophosphorylation of the protein kinase activated by double-stranded RNA. Using a Jurkat cell line that is deficient in caspase-8 and resistant to anti-Fas-induced apoptosis, we show that whilst the cleavage of eIF4GI is caspase-8-dependent, the enhancement of eIF2alpha phosphorylation does not require caspase-8 activity and occurs prior to the cleavage of eIF4GI. In addition, activation of the Fas/CD95 receptor results in the caspase-8-dependent dephosphorylation and degradation of p70(S6K), the enhanced binding of 4E-BP1 to eIF4E, and, at later times, the cleavage of eIF2alpha. These data suggest that apoptosis impinges upon the activity of several polypeptides which are central to the regulation of protein synthesis and that multiple signaling pathways are involved in vivo.
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PMID:Differential requirements for caspase-8 activity in the mechanism of phosphorylation of eIF2alpha, cleavage of eIF4GI and signaling events associated with the inhibition of protein synthesis in apoptotic Jurkat T cells. 1090 26

The objectives of the present study were twofold: 1) to determine whether leucine is unique among the branched-chain amino acids (BCAA) in its ability to stimulate protein synthesis in skeletal muscle of food-deprived rats; and 2) to investigate whether changes in muscle protein synthesis after leucine administration involve a signaling pathway that includes the protein kinase mammalian target of rapamycin (mTOR). In the first set of experiments, food-deprived (18 h) male rats (200 g) were orally administered saline or 270 mg valine, isoleucine or leucine. In the second set of experiments, food-deprived rats were injected intravenously with rapamycin (0.75 mg/kg), a specific inhibitor of mTOR, before leucine administration. Only leucine stimulated protein synthesis in skeletal muscle above saline-treated controls (P: < 0.05). Furthermore, leucine was most effective among the BCAA at enhancing phosphorylation of eukaryotic initiation factor (eIF), 4E binding protein 1 (4E-BP1) and the 70-kDa ribosomal protein S6 kinase (S6K1). Leucine-dependent hyperphosphorylation of 4E-BP1 increased the availability of eIF4E to form the active eIF4G.eIF4E complex. To a lesser extent, isoleucine also enhanced phosphorylation of 4E-BP1 and S6K1. Rapamycin inhibited protein synthesis in both leucine-treated and food-deprived rats. Additionally, rapamycin prevented the stimulatory effects of leucine on eIF4E availability for binding eIF4G and inhibited leucine-dependent phosphorylation of S6K1. The data demonstrate that leucine is unique among the BCAA in its ability to stimulate protein synthesis in muscle of food-deprived rats. We show for the first time that leucine-dependent stimulation of translation initiation in vivo occurs via a rapamycin-sensitive pathway.
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PMID:Leucine stimulates translation initiation in skeletal muscle of postabsorptive rats via a rapamycin-sensitive pathway. 1101 66

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