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)

Pituitary lactotroph cell function and PRL gene expression are highly regulated by the cAMP-protein kinase-A (PKA) pathway. To further our understanding of the molecular mechanisms by which cAMP/PKA regulates rat (r) PRL promoter activity and to determine whether cAMP regulation is cell type specific, we 1) transected intact (-425), internal and 5'-deletion, and site-specific mutants of the rPRL promoter ligated to the firefly luciferase reporter gene into both pituitary and nonpituitary cell lines; and 2) assessed the role of the cAMP-cAMP response element-binding protein (CREB) pathway in GH4 rat pituitary cells. The data show that deleting the rPRL promoter from -425 to -116 did not abolish cAMP regulation, implying that proximal elements, such as the basal transcription element (-112/-80) or the pituitary-specific footprint (FP) I (-67/-45), mediate the cAMP response. However, nucleotide changes within FP I or FP II (-130/-120) did not alter the rPRL promoter response to 1 microM forskolin (FSK), despite the 77% and 26% reductions in basal rPRL promoter activity caused by these mutations, respectively. Furthermore, internal deletion of either the basal transcription element of FP I element also failed to affect cAMP regulation of the rPRL promoter, again despite the 90% and 93% reductions in basal promoter activity by these deletions, respectively. Since these internal deletion constructs otherwise contain rPRL promoter sequences from -425 to +73, including the up-stream pituitary-specific FPs III and IV, the data suggest that any one of these cell-specific elements is capable of imparting cAMP regulation to the proximal rPRL promoter. To directly test the implication that the cAMP response of the rPRL promoter is restricted to the pituitary-specific cell type, we took advantage of a 5'-deletion mutant truncated at position -116 and a FP II site-specific mutant, since constructs containing these rPRL promoters are active in nonpituitary cells. Despite the 6.6- and 18.5-fold stimulations over wild-type rPRL promoter activity in nonpituitary cells, respectively, these mutations remained completely unresponsive to FSK treatment. To document that the cAMP-CREB pathway was functional in GC/GH4 rat pituitary cells, CREB was affinity purified from GC rat pituitary cells, and DNase-I protection studies showed that it does not bind to the proximal rPRL promoter. Also, the human glycoprotein alpha-subunit promoter was induced 10-fold by FSK in GH4 rat pituitary cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cyclic adenosine 3',5'-monophosphate activation of the rat prolactin promoter is restricted to the pituitary-specific cell type. 133 42

The cAMP response element-binding protein (CREB) mediates transcriptional activation of genes in response to the cAMP signal transduction pathway. There are two different isoforms of CREB, which are generated by alternative RNA splicing. There is evidence that the two isoforms may have different biological activities. As the longer isoform (CREB341) contains a potential phosphorylation site that is not present in the shorter isoform (CREB327), we examined the possible differential phosphorylation of the two CREB isoforms. Recombinant CREB was prepared and used as substrate for phosphorylation by the cAMP-dependent protein kinase in vitro. Phosphopeptide mapping and mutagenesis studies demonstrated that CREB341 contains two sites, serine 133 and serine 98, that can be phosphorylated in vitro by the catalytic subunit of the cAMP-dependent protein kinase. In contrast, CREB327 contains only a single phosphorylation site at serine 119 (equivalent position to serine 133 in CREB341). A kinase titration experiment demonstrated that serine 98 of CREB341 was phosphorylated only at relatively high concentrations of the cAMP-dependent protein kinase. Transient transfection studies were used to test for any possible function of the phosphorylation of serine 98 of CREB341. These studies used GAL4-CREB fusion proteins. We found that mutation of serine 98 to alanine (which would block phosphorylation) has little or no effect on the ability of the CREB fusion protein to activate transcription. These findings suggest that differences in the biological activity of the two CREB isoforms are probably not mediated by differential phosphorylation by the cAMP-dependent protein kinase.
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PMID:Phosphorylation of cyclic adenosine 3',5'-monophosphate (cAMP) response element-binding protein isoforms by the cAMP-dependent protein kinase. 148 Jan 75

We have shown that the transcriptional activity of the protooncogene jun (c-jun) promoter is repressed by a transcription factor, the cAMP response element-binding protein (CREB). This repression can be alleviated when CREB is phosphorylated by the catalytic subunit of protein kinase A. Repression cannot be alleviated by a mutant CREB deficient in the protein kinase A phosphorylation site (M1 CREB Ser-133----Ala), suggesting that phosphorylation of CREB at this site is essential for the relief of repression. Repression by CREB requires its binding to the c-jun promoter. In NIH 3T3 cells stably expressing CREB, c-jun is no longer induced by serum, but this repression can be relieved by treatment of the cells with forskolin, an agonist of the adenylate cyclase pathway. Thus, CREB has a dual function, that of a repressor in the absence of phosphorylation and an activator when phosphorylated by protein kinase A.
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PMID:Negative and positive regulation by transcription factor cAMP response element-binding protein is modulated by phosphorylation. 214 Aug 98

The rate of transcription of the beta 2-adrenergic receptor gene is increased in response to beta-adrenergic agonist stimulation of the receptor at the cell surface. This effect is mediated by stimulation of adenylyl cyclase and elevation of intracellular cAMP levels. We have previously shown that this responsiveness to cAMP resides in the 5'-flanking region of the human beta 2-adrenergic receptor gene (Collins, S., Bouvier, M., Bolanowski, M. A., Caron, M. G., and Lefkowitz, R. J. (1989) Proc. Natl. Acad. Sci. U. S. A. 86, 4853-4857). A 34-base pair sequence derived from the beta 2-adrenergic receptor promoter region (-70 to -37 base pairs), containing the sequence GTACGTCA, confers responsiveness to cAMP when present in either orientation 5' to the thymidine kinase promoter on the chloramphenicol acetyltransferase reporter gene. Overexpression of the catalytic subunit of protein kinase A fully substituted for forskolin in inducing expression through this sequence, indicating that the cAMP induction is mediated through this kinase. Mutations within the GTACGTCA sequence completely abolished the stimulation. A 43-kDa transcription factor (cAMP response element-binding protein) confers cAMP responsiveness through binding to specific sequences. In gel mobility shift assays, purified cAMP response element-binding protein bound to the 34-base pair oligonucleotide from the beta 2-adrenergic receptor gene with an affinity similar to that for the well-characterized cAMP response element from the human glycoprotein hormone alpha-subunit gene, and failed to bind to mutated elements. Thus, positive autoregulation of the beta 2-adrenergic receptor gene appears to occur through receptor-mediated stimulation of adenylyl cyclase, with consequent activation of cAMP response element-binding protein and stimulation of beta 2-adrenergic receptor gene transcription. These results demonstrate a novel mechanism by which a receptor (beta 2-adrenergic receptor) stimulatory for adenylyl cyclase can exert positive feedback regulation on its own expression.
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PMID:A cAMP response element in the beta 2-adrenergic receptor gene confers transcriptional autoregulation by cAMP. 217 52

The second messenger cAMP stimulates the expression of numerous genes via the protein kinase A-mediated phosphorylation of the cAMP response element-binding protein (CREB) at Ser-133. Ser-133 phosphorylation, in turn, appears to induce target gene expression by promoting interaction between CREB and CBP, a 265-kDa nuclear phospho-CREB-binding protein. It is unclear, however, whether Ser-133 phosphorylation per se is sufficient for CREB-CBP complex formation and for target gene induction in vivo. Here we examine CREB activity in Jurkat T cells after stimulation of the T-cell receptor (TCR), an event that leads to calcium entry and diacylglycerol production. Triggering of the TCR stimulated Ser-133 phosphorylation of CREB with high stoichiometry, but TCR activation did not promote CREB-CBP complex formation or target gene induction unless suboptimal doses of cAMP agonist were provided as a costimulus. Our results demonstrate that, in addition to mediating Ser-133 phosphorylation of CREB, protein kinase A regulates additional proteins that are required for recruitment of the transcriptional apparatus to cAMP-responsive genes.
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PMID:Multiple protein kinase A-regulated events are required for transcriptional induction by cAMP. 747 32

We have recently shown that a combination of three transcription factors governs the expression of the human transferrin gene in different brain cell types, oligodendrocytes, choroid plexus cells and neuronal cells. It was essential to elucidate the role of each factor in the regulation of transferrin gene transcription. Site-directed mutagenesis and co-transfection experiments in neuronal cells revealed that chicken ovalbumin upstream promoter transcription factor (COUP-TF), which binds to the promoter region I, acts as a repressor. Overexpression of the CCAAT/enhancer binding protein (C/EBP-alpha), which binds to the promoter region II, transactivates the -164/+1 promoter, even enables the -125/+1 region to promote transcription, and synergistically activates transcription in the presence of CREB. The C/EBP-alpha-mediated activation is antagonized by COUP-TF. The positive action of the cAMP response element-binding protein called CRI-BP is revealed by mutations of the central region I site which repress transcription. Moreover addition of dibutyryl cyclic AMP or overexpression of the catalytic subunit of protein kinase A increase transcription from the wild-type and not from the CRI mutant promoter, which shows that CRI-BP is responsible for mediating cAMP stimulation of Tf gene transcription.
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PMID:Transcription of the human transferrin gene in neuronal cells. 761 49

cAMP response element-binding protein (CREB) participates in both constitutive and cAMP-induced transcription of cAMP-responsive genes. CREB-mediated constitutive transcription requires only CREB-binding sites and a minimal promoter region (containing the TATA through start sequences), indicating that CREB interacts directly with components of the general transcription machinery. In this study, a coimmunoprecipitation assay was used to test for interaction of CREB with the general transcription factors (TF) TFIIB and TFIID and the core component of TFIID, TATA-binding protein (TBP). Human TFIIB and TBP, tagged with distinct epitopes (eTFIIB and eTBP), were expressed in and purified from Escherichia coli, and holo-eTFIID, containing eTBP, was obtained from the HeLa cell line LTR alpha 3. 35S-Labeled CREB, synthesized in vitro and incubated with eTFIIB, was coimmunoprecipitated with antibody recognizing eTFIIB, indicating that CREB specifically binds to TFIIB. 35S-CREB was coimmunoprecipitated with antibody against eTBP, but only when incubated with the holo-eTFIID complex, not with eTBP alone. TFIIB interacted with TBP, but CREB was not coprecipitated with the eTBP antibody when incubated with eTBP plus TFIIB, so CREB did not form a stable ternary complex with TFIIB and TBP. Conversely, depletion of TFIIB from the holo-TFIID preparation did not diminish the level of interaction between CREB and TFIID. Thus, CREB interacts independently with TFIIB and TFIID, but not directly with TBP. A protein kinase A phosphorylation site mutant of CREB and wild-type CREB exhibited equivalent interaction with TFIIB, indicating that this phosphorylation is not required. Consistent with the role of CREB in promoting constitutive or basal transcription, the constitutive activation domain of CREB was sufficient for interaction with both TFIIB and TFIID.
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PMID:cAMP response element-binding protein (CREB) interacts with transcription factors IIB and IID. 761 53

The somatic Sertoli cells of the testis are major targets for FSH and are important for the regulation of spermatogenesis. The binding of FSH to Sertoli cells activates the cAMP-dependent protein kinase A signaling pathway, resulting in phosphorylation of the cAMP response element-binding protein (CREB), which is required to transactivate genes containing cAMP response elements (CREs). Here we show that the addition of forskolin to cultured primary Sertoli cells results in the phosphorylation of CREB within 2-5 min. Phospho-CREB levels remain elevated with continued forskolin stimulation, but fall by 60% within 5 min after the removal of forskolin. In addition, we found that 8-bromo-cAMP induces CREB RNA accumulation in the Sertoli cells. Transient transfections of primary Sertoli cells with CREB promoter-chloramphenicol acetyltransferase reporter plasmids define a conserved 300-base pair region of the CREB promoter surrounding the transcription start site that is required for both basal and cAMP-inducible expression of the CREB gene. This region of the promoter contains three Sp1-binding sites flanking the transcription initiation site and two CREs located 65 and 85 base pairs downstream of the transcription initiation site. We show that the Sp1 motifs bind Sp1 in Sertoli extracts and contribute to basal promoter activity, and that the CREs bind CREB and are essential for cAMP induction of CREB gene transcription. These findings support the model of FSH- and cAMP-mediated CREB autoregulation of its own promoter and may explain the dramatic stage-specific oscillations in Sertoli cells of CREB messenger RNA levels during the 12-day cycles of spermatogenesis in rat seminiferous tubules.
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PMID:Expression of the gene encoding transcription factor cyclic adenosine 3',5'-monophosphate (cAMP) response element-binding protein (CREB): regulation by follicle-stimulating hormone-induced cAMP signaling in primary rat Sertoli cells. 762 90

Insulin's interaction with its receptor initiates a multitude of cellular effects on metabolism, growth, and differentiation. We recently described an insulin-mediated inhibition of nuclear protein phosphatase 2A (PP-2A), which is associated with an increase in phosphorylation of the transcription factor cAMP response element-binding protein. To clarify the role of nuclear PP-2A inhibition in the insulin signaling cascade, we examined the regulation of this phosphatase activity by insulin in Rat-1 fibroblasts overexpressing normal (HIRc) or mutant human insulin receptors (delta CT cells, deletion of a 43-amino acid C-terminal domain). The delta CT cells represent an excellent model of impaired metabolic and intact mitogenic action of insulin. Insulin inhibited nuclear PP-2A activity and enhanced cAMP response element-binding protein phosphorylation in HIRc cells, but not in delta CT cells. The delta CT cells exhibited normal ras activation and blunted mitogen-activating protein kinase phosphorylation and activation in response to insulin (16-fold in HIRc cells vs. 3-fold in delta CT cells), indicating that the mitogen-activating protein kinase pathway is important for the regulation of nuclear PP-2A activity by insulin. We conclude that insulin inhibits nuclear PP-2A activity, and that the carboxy-terminal domain of the insulin receptor is important for this effect.
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PMID:Insulin inhibits nuclear phosphatase activity: requirement for the C-terminal domain of the insulin receptor. 775 Apr 68

cAMP response element-binding protein (CREB) and modulator protein (CREM) regulate the transcription of cAMP-responsive genes via phosphorylation by cAMP-dependent protein kinase A. Reverse transcription and polymerase chain amplification of RNA from male germ cells identify an alternatively spliced CREM isoform, CREM delta C-G, lacking four exons including those encoding the protein kinase A-regulated phosphorylation domain and the flanking glutamine-rich transcriptional activation domains. CREM delta C-G retains exons that encode the basic-leucine zipper (bZIP) DNA-binding domain, binds to cAMP response elements (CREs), and competitively inhibits binding of CREB and CREM to CREs. Expression of CREM delta C-G inhibits transcription of a CRE-containing chloramphenicol acetyltransferase reporter plasmid induced by endogenous CREB. Antiserum to CREM detects CREM delta C-G in elongated spermatids from rat testis. These observations indicate that CREM delta C-G is a unique form of a competitive negative regulator of CREB-mediated gene transcription expressed in a maturation-dependent manner in haploid germ cells. The developmental specificity of CREM delta C-G suggests that it may play a role in transcriptional regulation during spermatogenesis.
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PMID:An isoform of transcription factor CREM expressed during spermatogenesis lacks the phosphorylation domain and represses cAMP-induced transcription. 780 53

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