Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activation of the adenylyl cyclase signaling pathway elicits the induction of genes via activators binding to cAMP-responsive elements (CREs). Nuclear factor CRE modulator (CREM) is activated by PKA-mediated phosphorylation on a serine at position 117. We show that Ser-117 is also phosphorylated by the mitogen-activated p70 S6 kinase (p70S6K) in vitro. Activation of cellular p70S6K by serum factors enhances Ser-117 phosphorylation and CREM transactivation. Coexpression of p70S6K significantly increases transactivation by a GAL4-CREM fusion. The macrolide rapamycin, a potent and specific inhibitor of p70S6K in vivo, completely blocks CREM activation induced by serum and by p70S6K. Thus, CREM constitutes a target for mitogenic signaling through p70S6K and may acts as a nuclear effector in which transduction pathways may converge and cross-talk.
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PMID:Positive regulation of the cAMP-responsive activator CREM by the p70 S6 kinase: an alternative route to mitogen-induced gene expression. 792 80

Hormonally induced increases in cyclic AMP levels induce phosphorylation of the transcription factor CREB at a serine residue at position 133 by protein kinase A (ref. 1), enhancing its ability to activate transcription without affecting its intracellular location or DNA-binding activity. This effect is dependent on a 60-amino-acid region of CREB that contains Ser133 and is termed the kinase-inducible domain (KID)2, which also occurs in the CREB-related CREM-alpha and -beta proteins, although these are transcriptional repressors. Here we show that the KID domain confers a cAMP-inducible increase on the activity of the Q2 activation domain from CREB and the acidic activation domains from the yeast proteins GAL4 and GCN4. Remarkably, it retains this ability even when attached to a separate polypeptide bound to an adjacent site in the promoter. KID may therefore be the first of a new class of conditional activators that work through other promoter-bound factors to stimulate gene expression in response to hormonal stimuli.
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PMID:Protein-kinase-A-dependent activator in transcription factor CREB reveals new role for CREM repressors. 810 91

Transcription of the phosphoenolpyruvate carboxykinase (PEPCK) and PEPCK-chloramphenicol acetyltransferase (CAT) genes is induced by cAMP and glucocorticoids and is inhibited by insulin in H4IIE cells, as it is in liver. In contrast, PEPCK-CAT expression in HepG2 cells is not affected by insulin but is induced by cAMP, which in turn is repressed by glucocorticoids. Mutations were introduced into well defined transcription factor binding sites to investigate possible interactions between the cAMP regulatory element (CRE) binding protein (CREB) and glucocorticoid response unit (GRU) binding proteins. H4IIE rat hepatoma cells were transfected with PEPCK-CAT plasmids with or without an expression vector for protein kinase A (PKA). Glucocorticoid-induced CAT activity was dependent upon the GRU and was decreased in plasmids lacking the CRE. To determine the direct effects of CREB, the DNA binding and dimerization domain of GAL4 was substituted for that of CREB (CRG), and the PEPCK CRE was replaced with a GAL4 binding site (G4PEPCK-CAT). CRG elevated basal and glucocorticoid-induced activities of G4PEPCK-CAT equally and restored responsiveness to PKA. The basal activity of CRG was not diminished by concomitant treatment with PKA plus its inhibitor peptide, PKI, or by mutation of the PKA phosphorylation. Deletion of C-terminal regions of the CREB activation domain from CRG diminished basal activation without affecting induction by PKA. The glucocorticoid-induced level of CAT activity decreased in proportion to the reduced ability of CREB to activate basal transcription. Induction by glucocorticoid, in the absence or presence of PKA, was not affected by CRG, indicating that interaction of GRU-bound factors with CREB is not required for glucocorticoid induction of PEPCK. These results indicate that CREB is directly involved in basal and PKA-induced expression of PEPCK, and that CREB supports glucocorticoid-induced PEPCK expression through its positive effect on basal transcription.
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PMID:Involvement of 3',5'-cyclic adenosine monophosphate regulatory element binding protein (CREB) in both basal and hormone-mediated expression of the phosphoenolpyruvate carboxykinase (PEPCK) gene. 811 62

The minimal promoter/transcription factor requirements for induction of phosphoenolpyruvate carboxykinase (PEPCK) transcription by cAMP-activated protein kinase A (PKA) and inhibition of this induction by insulin were investigated. H4 hepatoma cells were treated with or without insulin following cotransfection with chloramphenicol acetyltransferase reporter genes and expression vectors coding for the cAMP response element-binding protein (CREB) activation domain fused to the GAL4 DNA binding domain (CRG) and the catalytic subunit of PKA. Mutation of the PEPCK CRE to a GAL4 binding site (G4-PEPCK) within the fully responsive PEPCK promoter (-600/+69) made induction by PKA dependent upon cotransfection of CRG and this induction by CRG+PKA was inhibited by insulin. Mutation of the insulin regulatory sequence (delta IRS-G4-PEPCK) did not prevent induction by cAMP or inhibition by insulin. Fusion of GAL4 binding sites to the PEPCK TATA region (-40/+1, G4-PT) allowed induction by CRG+PKA and inhibition by insulin. However, inhibition by insulin was not observed when the CREB activation domain in CRG was replaced with the activation domain of VP16 (G4-VP16) or when the PEPCK TATA region was replaced with TATA regions from other genes. Our results indicate that the minimal requirements for induction of PEPCK by PKA and inhibition by insulin include: 1) the CREB activation domain, 2) the PEPCK TATA sequence, and 3) insulin-responsive hepatoma cells. These data suggest that specific factors interacting with both the PEPCK TATA region and the CREB activation domain are required for insulin inhibition of PKA-induced transcription.
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PMID:Inhibition by insulin of protein kinase A-induced transcription of the phosphoenolpyruvate carboxykinase gene. Mediation by the activation domain of cAMP response element-binding protein (CREB) and factors bound to the TATA box. 818 41

Expression of the GAL genes of Saccharomyces cerevisiae is induced during growth on galactose by a well-characterized regulatory mechanism that relieves Gal80p inhibition of the Gal4p transcriptional activator. Growth on glucose overrides induction by galactose. Glucose repression acts at three levels to reduce GAL1 expression: (i) it reduces the level of functional inducer in the cell; (ii) it lowers cellular levels of Gal4p by repressing GAL4 transcription; and (iii) it inhibits Gal4p function through a repression element in the GAL1 promoter. We quantified the amount of repression provided by each mechanism by assaying strains with none, one, two, or all three of the repression mechanisms intact. In a strain lacking all three repression mechanisms, there was almost no glucose repression of GAL1 expression, suggesting that these are the major, possibly the only, mechanisms of glucose repression acting upon the GAL genes. The mechanism of repression that acts to reduce Gal4p levels in the cell is established slowly (hours after glucose addition), probably because Gal4p is stable. By contrast, the repression acting through the upstream repression sequence element in the GAL1 promoter is established rapidly (within minutes of glucose addition). Thus, these three mechanisms of repression collaborate to repress GAL1 expression rapidly and stringently. The Mig1p repressor is responsible for most (possibly all) of these repression mechanisms. We show that for GAL1 expression, mig1 mutations are epistatic to snf1 mutations, indicating that Mig1p acts after the Snf1p protein kinase in the glucose repression pathway, which suggests that Snf1p is an inhibitor of Mig1p.
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PMID:Multiple mechanisms provide rapid and stringent glucose repression of GAL gene expression in Saccharomyces cerevisiae. 819 26

One of the hallmarks of long-term memory in both vertebrates and invertebrates is the requirement for new protein synthesis. In sensitization of the gill-withdrawal reflex in Aplysia, this requirement can be studied on the cellular level. Here, long-term but not short-term facilitation of the monosynaptic connections between the sensory and motor neurons requires new protein synthesis and is reflected in an altered level of expression of specific proteins regulated through the cAMP second-messenger pathway. Using gene transfer into individual sensory neurons of Aplysia, we find that serotonin (5-HT) induces transcriptional activation of a lacZ reporter gene driven by the cAMP response element (CRE) and that this induction requires CRE-binding proteins (CREBs). The induction by 5-HT does not occur following a single pulse, but becomes progressively more effective following two or more pulses. Moreover, expression of GAL4-CREB fusion genes shows that 5-HT induction requires phosphorylation of CREB on Ser119 by protein kinase A. These data provide direct evidence for CREB-modulated transcriptional activation with long-term facilitation.
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PMID:Activation of cAMP-responsive genes by stimuli that produce long-term facilitation in Aplysia sensory neurons. 838 57

Activation of protein kinase A (PKA) by cAMP results in phosphorylation of cAMP response element-binding protein (CREB) and induction of specific gene expression. However, whether CREB participates directly in basal (PKA-independent) transcription is still an open question, and existing studies conflict over the identification of putative basal activation domains. In the present study, the activation domain of CREB, whether fused to the GAL4 DNA binding domain (CRG) or in native CREB, stimulated basal activity of the minimal tk promoter, but not the minimal SV40 early promoter. Cotransfection with PKI, a specific inhibitor of PKA, blocked PKA-induced expression of both promoters, but did not block CRG-mediated basal expression of the tk promoter. In addition, both CRG and a PKA phosphorylation site mutant provided comparable stimulation of basal tk promoter activity. Examination of a series of CREB deletion mutants mapped basal activity to interacting domains, located on either side of the previously identified PKA activation domain (amino acids 98-142). This PKA-independent activity mapped primarily to a bipartite COOH-terminal basal activation domain (amino acids 165-252). Its major component bears no obvious homology to previously identified activation domains, whereas a minor component is glutamine-rich. This COOH-terminal domain acts independently and provides the majority of basal activation but requires an NH2-terminal domain (amino acids 41-86) to provide full basal activity. A repressor domain (amino acids 142-165), deletion of which enhanced both basal and PKA-activated transcription, was also identified. This work establishes that CREB contains distinct basal and PKA-activated domains, that they operate independently for both loss of function and gain of function, and that they work on different promoters in different cell types.
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PMID:Distinct activation domains within cAMP response element-binding protein (CREB) mediate basal and cAMP-stimulated transcription. 839 25

Addition of mitogenic growth factors to quiescent cells triggers complex signal transduction cascades that result in the reprogramming of gene expression and entry into the cell cycle. We have found that an oncogenic variant of the c-Raf-1 protein kinase stimulated the expression of promoters containing NF-kappa B binding sites. In situ immunofluorescence analysis revealed elevated nuclear levels of the p65 subunit of NF-kappa B in v-raf-transformed NIH 3T3 cells. Incubation of HeLa cell cytoplasmic extracts with a purified recombinant glutathione S-transferase-raf fusion protein in the presence of ATP released active NF-kappa B that could be detected by electrophoretic gel mobility shift assay. Coincubation of purified recombinant I kappa B and glutathione S-transferase-raf in the presence of ATP resulted in the phosphorylation of I kappa B. Coexpression of GAL4 (activation domain)-I kappa B and GAL4 (DNA-binding domain)-raf fusion proteins in yeast resulted in stimulation of a GAL4-responsive reporter gene, indicating that I kappa B and Raf interact physically in vivo. These results indicate that the Raf-1 kinase functions in signal transduction in part by activating the NF-kappa B transcription factor by phosphorylating I kappa B in the cytoplasmic I kappa B-NF-kappa B complex to release active NF-kappa B.
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PMID:Raf-1 protein kinase activates the NF-kappa B transcription factor by dissociating the cytoplasmic NF-kappa B-I kappa B complex. 841 86

Nuclear proteins of the human peripheral blood T lymphocytes that bind to the CREs located within three 21-bp repeat enhancers of the HTLV-I promoter belong to the CREB/CREM family of bZIP transcription factors. It has been shown previously that Tax enhances transactivation of these CREs by direct interactions with the bZIP domain of the transcription factors to stabilize DNA-binding. We show that CREB and CREM bind all three CRE sequences of the HTLV-I promoter which are important determinants in Tax-elicited transactivation as well as PKA-mediated activation of the HTLV-I promoter. Tax and PKA activate transcription from a HTLV-I-LTR CAT reporter plasmid transfected to NIH 3T3 cells, and CREM attenuates the activation. In the context of a GAL4 CREB fusion protein in which the DNA-binding bZIP domain of CREB is replaced by GAL4 binding domain, a single amino acid substitution of serine-133, phosphorylated by PKA and critical for the transactivation function of CREB, attenuates both Tax and PKA-mediated transcriptional responses. These observations suggest that Tax enhances CREB-mediated transactivation of the HTLV-I promoter by a mechanism apart from, and/or in addition to, the reported stabilization of DNA-binding by interaction with the bZIP domain of CREB.
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PMID:Modulation of Tax and PKA-mediated expression of HTLV-I promoter via cAMP response element binding and modulator proteins CREB and CREM. 854 66

The gene coding for phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) is expressed in all gluconeogenic tissues, but stimulation of its rate of transcription by cAMP is robust only in liver. Evidence has accumulated which suggests that a liver-enriched transcription factor, likely a member of the CCAAT/enhancer binding protein (C/EBP) family, is required along with other ubiquitously expressed transcription factors to mediate this liver-specific response to cAMP. In this study, we examined the ability of C/EBP to participate in the cAMP-mediated activation of phosphoenolpyruvate carboxykinase (PEPCK) gene transcription in hepatoma cells. Expression of a dominant repressor of C/EBP in hepatoma cells significantly inhibited the protein kinase A-stimulated transcription of the PEPCK promoter, suggesting that a C/EBP family member was required for maximal transcriptional activation by protein kinase A. To provide additional support for this hypothesis, we prepared GAL4 fusion proteins containing C/EBP domains. Both C/EBPalpha and C/EBPbeta GAL4 fusion proteins were capable of stimulating transcription from promoters containing binding sites for the DNA-binding domain of GAL4. However, only the GAL4-C/EBPalpha fusion protein demonstrated the ability to synergize with the other transcription factors bound to the PEPCK promoter which are required to mediate cAMP responsiveness. The DNA-binding domain of C/EBPalpha was not required for this activity in hepatoma cells, although in non-hepatoma cells the basic region leucine zipper domain appeared to inhibit the ability of C/EBPalpha to participate in mediating cAMP responsiveness. These results suggest that the liver-specific nature of the cAMP responsiveness of the PEPCK promoter involves the recruitment of C/EBPalpha to the cAMP response unit.
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PMID:The alpha-isoform of the CCAAT/enhancer-binding protein is required for mediating cAMP responsiveness of the phosphoenolpyruvate carboxykinase promoter in hepatoma cells. 862 91


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