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)

Early in adenovirus infection, the E1A (early region 1A) oncogene products trans-activate the other early viral transcription units, as well as some cellular promoters. The mechanism by which E1A elicits its activity is still unknown. In this report, I show that the adenovirus E2a and E3 promoters are cAMP inducible in rat pheochromocytoma PC12 cells and that this activation requires the presence of the cAMP-dependent protein kinase II. Using deletion mutants of the E2a promoter, it was found that the sequence TACGTCAT located between positions -70 and -77 is involved in both the cAMP response and the E1A trans-activation. Also, in the mutant PC12 cell line A126-2B, which lacks the cAMP-dependent protein kinase II, E1A is still able to activate E2a and E3 promoters. This suggests that E1A products may circumvent the lack of the kinase by activating an alternative signal transduction pathway, which could mimic the effect of agonists of adenylate cyclase. I propose that E1A is capable of modifying by phosphorylation, either directly or indirectly, the transcription factor that binds the ACGTCA motif. Such a factor, termed ATF (adenovirus transcription factor), has already been characterized and appears to have strong similarities to the transcriptional factor CREB (cAMP responsive element binding protein), which binds homologous sequences in cAMP responsive genes, such as somatostatin and c-fos.
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PMID:Cyclic AMP induction of early adenovirus promoters involves sequences required for E1A trans-activation. 290 26

The transcription factor CREB (cAMP responsive element binding protein) is activated by protein kinase A (PKA) phosphorylation of a single serine residue. To investigate possible mechanisms of CREB regulation by phosphorylation, we initiated a structural and biophysical characterization of the full-length, wild-type CREB protein, an altered CREB protein (CREB/SER) in which the three cysteine residues in the DNA-binding domain were replaced with serine residues and a truncated protein (ACT265) which encompasses the entire activation domain of CREB. Circular dichroism (CD) reveals that CREB and CREB/SER have identical secondary structures and contain approximately 20% alpha-helix, 9% beta-strand, 34% beta-turn, and 37% random coil structures. PKA phosphorylation does not alter the CD spectra, and therefore the secondary structure, of CREB or of CREB bound to DNA. Protease cleavage patterns indicate that PKA phosphorylation does not induce a global conformational change in CREB. Furthermore, PKA phosphorylation does not change the DNA binding affinity of CREB for either canonical or non-canonical CRE sequences as measured by a fluorescence anisotropy DNA binding assay. Since PKA phosphorylation of CREB results in its specific binding to the transcriptional co-activators CREB-binding protein and p300, we suggest that the PKA activation of CREB occurs by the production of specific, complementary interactions with these proteins, rather than through the previously proposed mechanisms of a phosphorylation-dependent conformational change or increased DNA binding affinity.
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PMID:Analysis of the structural properties of cAMP-responsive element-binding protein (CREB) and phosphorylated CREB. 866 19

The purpose of the present study was to track the acute effects of ethanol on the cerebellar adenylyl cyclase cascade from membrane to nucleus and to determine how this important signaling pathway neuroadapts during chronic ethanol exposure. An acute ethanol challenge increased cyclic AMP content and protein kinase A activity by 80% compared to control rats. In the nucleus the phosphorylated form of cAMP responsive element binding protein (CREB) increased 500%. Gel retardation assays with an oligomer encoding the rat proenkephalin cyclic AMP (CRE)1 were performed. Assays from protein derived from rats acutely exposed to ethanol identified three CRE-protein complexes also observed in assays of protein from saline-treated animals. However, after acute ethanol exposure, the intensity of the upper and middle CRE-protein complexes increased by 3-fold (280 +/- 10 vs. 70 +/- 3 arbitrary units; P < .01) compared to the sham treatment. Intensity of complex formation was still elevated 1 and 6 hr after ethanol exposure compared to sham conditions. In contrast, chronic ethanol treatment as well as pair-fed treatment did not alter the phosphorylation state of CREB or the intensity of the specific CRE-protein complexes on gel retardation assays. In summary, acute ethanol exposure resulted in the activation of the adenylyl cyclase signal transduction cascade from membrane to nucleus. In contrast, chronic ethanol exposure did not alter the phosphorylation of CREB or CRE binding activity. The behavioral significance of these events remain unclear, but may be related to the development of ethanol-induced tolerance in specific cerebellar functions.
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PMID:Ethanol exposure alters the phosphorylation of cyclic AMP responsive element binding protein and cyclic AMP responsive element binding activity in rat cerebellum. 876 68

cAMP/cAMP-dependent protein kinase (PKA) signaling pathway has been recently proposed to participate in both the late phase of long term potentiation in the hippocampus and in the late, protein synthesis-dependent phase of memory formation. Here we report that a late memory consolidation phase of an inhibitory avoidance learning is regulated by an hippocampal cAMP signaling pathway that is activated, at least in part, by D1/D5 receptors. Bilateral infusion of SKF 38393 (7.5 microg/side), a D1/D5 receptor agonist, into the CA1 region of the dorsal hippocampus, enhanced retention of a step-down inhibitory avoidance when given 3 or 6 h, but not immediately (0 h) or 9 h, after training. In contrast, full retrograde amnesia was obtained when SCH 23390 (0.5 microg/side), a D1/D5 receptor antagonist, was infused into the hippocampus 3 or 6 h after training. Intrahippocampal infusion of 8Br-cAMP (1.25 microg/side), or forskolin (0.5 microg/side), an activator of adenylyl cyclase, enhanced memory when given 3 or 6 h after training. KT5720 (0.5 microg/side), a specific inhibitor of PKA, hindered memory consolidation when given immediately or 3 or 6 h posttraining. Rats submitted to the avoidance task showed learning-specific increases in hippocampal 3H-SCH 23390 binding and in the endogenous levels of cAMP 3 and 6 h after training. In addition, PKA activity and P-CREB (phosphorylated form of cAMP responsive element binding protein) immunoreactivity increased in the hippocampus immediately and 3 and 6 h after training. Together, these findings suggest that the late phase of memory consolidation of an inhibitory avoidance is modulated cAMP/PKA signaling pathways in the hippocampus.
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PMID:Involvement of hippocampal cAMP/cAMP-dependent protein kinase signaling pathways in a late memory consolidation phase of aversively motivated learning in rats. 919 88

cAMP signals are received and transmitted by multiple isoforms of cAMP-dependent protein kinases, typically determined by their specific regulatory subunits. In the brain the major regulatory isoform RIIbeta and the RII-anchor protein, AKAP150 (rat) or 75 (bovine), are differentially expressed. Cortical neurons express RIIbeta and AKAP75; conversely, granule cerebellar cells express predominantly RIalpha and RIIalpha. Cortical neurons accumulate PKA catalytic subunit and phosphorylated cAMP responsive element binding protein very efficiently into nuclei upon cAMP induction, whereas granule cerebellar cells fail to do so. Down-regulation of RIIbeta synthesis by antisense oligonucleotides inhibited cAMP-induced nuclear signaling in cortical neurons. Expression in cerebellar granule cells of RIIbeta and AKAP75 genes by microinjection of specific expression vectors, markedly stimulated cAMP-induced transcription of the lacZ gene driven by a cAMP-responsive element promoter. These data indicate that the composition of PKA in cortical and granule cells underlies the differential ability of these cells to transmit cAMP signals to the nucleus.
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PMID:The type and the localization of cAMP-dependent protein kinase regulate transmission of cAMP signals to the nucleus in cortical and cerebellar granule cells. 1003 48

cAMP initiates the PKA signaling cascade in rat pheochromocytoma PC12 cells, resulting in transcriptional activation of the tyrosine hydroxylase (TH) gene. This effect is mediated primarily through the cAMP responsive element (CRE), located at position -45 to -38 within the TH gene promoter. In this study, we applied an antisense RNA strategy to evaluate the role of the cAMP responsive element binding protein (CREB) in regulating TH gene expression. CREB antisense RNA expression vectors were stably introduced into PC12 cells to generate cell lines deficient in CREB. CREB protein and mRNA levels were diminished up to 90% in the stably transfected cell lines. Promoter analysis experiments demonstrated that cAMP-mediated inducibility of either TH gene proximal promoter activity or the activity of the TH CRE by itself fused upstream of a basal promoter was diminished in CREB-deficient cell lines. PKA activity in the CREB-deficient cell lines was comparable to the activity in control cell lines. In addition, neither ATF1, nor CREM proteins were significantly down-regulated in the CREB-deficient cells. Most significantly, the cAMP-inducibility of endogenous TH mRNA was completely blocked in the CREB-deficient cells, indicating that the response of the endogenous gene to cAMP was dependent on CREB. These results support the hypothesis that CREB (not other CRE-binding proteins) is the key transcription factor that is required for regulating TH gene expression in response to cAMP. Furthermore, our studies indicate that these CREB-deficient PC12 cells are excellent tools to study the participation of CREB in gene regulation.
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PMID:CREB mediates the cAMP-responsiveness of the tyrosine hydroxylase gene: use of an antisense RNA strategy to produce CREB-deficient PC12 cell lines. 1040 70

A growing body of evidence supports an important role of the transcription factor cAMP responsive element binding protein (CREB) in mediating opioid-induced changes in the cAMP pathway. Regulation of CREB and subsequent changes in gene expression may underlie some long-term cellular adaptations associated with the administration of opioid drugs. The effect of morphine on the level of the transcription factor CREB, as well as CREB phosphorylation, was investigated in NG108-15 cells. Morphine and the delta-opioid receptor agonist [D-Pen(2,5)]enkephalin (DPDPE) produced a dose-dependent increase in CREB phosphorylation. The effect was reversed by naloxone and naltrindole, respectively. The calmodulin antagonist N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide hydrochloride (W-7), the protein kinase inhibitor staurosporine, as well as 1-(5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride (H-7), an inhibitor of protein kinase C and cAMP-dependent protein kinase, but not N-[2-(methylamino)ethyl]-5-isoquinolinesulfonamide dihydrochloride (H-8), an inhibitor of cAMP- and cGMP-dependent protein kinase, blocked the opioid-induced CREB phosphorylation. The obtained results suggest that in the cells studied opioids affect, via the delta-opioid receptor, stimulatory intracellular mediator systems involving Ca(2+)/calmodulin and the protein kinase C pathway.
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PMID:Acute delta-opioid receptor activation induces CREB phosphorylation in NG108-15 cells. 1070

The proopiomelanocortin (POMC) gene expressed in corticotrophs of the anterior pituitary encodes several biologically active peptides and is primarily under the positive control of hypophysiotropic factors (e.g. corticotropin releasing hormone). Using AtT20 cells as a model, we show that these factors increase levels of POMC primary RNA transcripts representative of a transcriptional activation of the gene. This effect is mimicked by several activators of the cAMP signaling pathway. Inhibition of protein synthesis with cycloheximide did not modify the CRH-induced increase in POMC hnRNA suggesting that these early effects are mediated by preexisting transcription factors. Using a reporter gene containing 706 bp of the POMC promoter region, we observe transcriptional activation with the same compounds, their effects being abolished when protein kinase A (PKA) is inactivated by a dominant inhibitory mutant. Promoter deletion analyses mapped an essential cAMP inducible element within the first exon of the POMC gene. This element (PTRE: TGACTAA) located at nucleotides +41/+47 was shown to bind the cAMP responsive element binding protein (CREB) by gel shift analyses and confers strong transcriptional activation by an expression vector coding a CREB-VP16 activator domain fusion protein. Further, expression of a dominant inhibitory mutant of CREB reduced cAMP stimulated transcription of the full length POMC promoter and the PTRE. Taken together, these results show that the major hypophysiotropic factors stimulate POMC transcription through a signaling cascade that involves PKA and CREB.
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PMID:Transcriptional activation of the proopiomelanocortin gene by cyclic AMP-responsive element binding protein. 1108 Nov 81

The mammalian period (Per) genes are components of the circadian clock and appear to be regulated via an autoregulatory feedback loop. Here we show that the human PER1 (hPER1) gene is synergistically activated by protein kinases A and C (PKA, PKC) and cAMP responsive element binding protein. Activators and inhibitors of PKA as well as PKC modulate endogenous hPER1 expression and hPER1 promoter-driven reporter gene activity in a dose-dependent manner. Our results suggest that the hPER1 promoter acts as a sensor for multiple signaling molecules thereby integrating different physiological parameters. This regulation of hPER1 appears to be significant for rapid adaptation to changing environmental conditions.
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PMID:The human PER1 gene is transcriptionally regulated by multiple signaling pathways. 1111 26

Tyrosine hydroxylase (TH) gene promoter activity is increased in PC12 cells that are treated with the phorbol ester, 12-O-tetradecanoylphorbol 13-acetate (TPA). Mutagenesis of either the cAMP responsive element (CRE) or the activator protein-1 element (AP1) within the TH gene proximal promoter leads to a dramatic inhibition of the TPA response. The TH CRE and TH AP1 sites are also independently responsive to TPA in minimal promoter constructs. TPA treatment results in phosphorylation of cAMP responsive element binding protein (CREB) and activation of cAMP-dependent protein kinase (PKA) in PC12 cells; hence, we tested whether CREB and/or PKA are essential for the TPA response. In CREB-deficient cells, the response of the full TH gene proximal promoter or the independent response of the TH CRE by itself to TPA is inhibited. The TPA-inducibility of TH mRNA is also blocked in CREB-deficient cells. Expression of the PKA inhibitor protein, PKI, also inhibits the independent response of the TH CRE to TPA. Our results support the hypothesis that TPA stimulates the TH gene promoter via signaling pathways that activate either the TH AP1 or TH CRE sites. Both signaling pathways are dependent on CREB and the TH CRE-mediated pathway is dependent on PKA.
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PMID:The cAMP responsive element and CREB partially mediate the response of the tyrosine hydroxylase gene to phorbol ester. 1123 22

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