EC:4.6.1.1 - FACTA Search

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Query: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this study we demonstrate that the activator protein-1 (AP-1) DNA motif, initially considered to be unresponsive to cyclic AMP (cAMP), does function as a cAMP-response element in PC12 cells. A luciferase reporter gene driven by the collagenase promoter that contains the AP-1 motif is responsive to cAMP as well as phorbol esters when transfected in PC12 cells. We have recently shown that pituitary adenylate cyclase activating peptide (PACAP) has neurotrophic properties and activates both adenylylcyclase and the inositol lipid cascade in PC12 cells. Consistent with these actions, we demonstrate that PACAP is an effective activator of luciferase reporter genes whose promoters bear the AP-1 motif, as well as the related DNA element that binds the protein CREB. Both the cAMP and inositol lipid pathways appear to play a role in the activation of these motifs by PACAP. Mutation of the AP-1 motif and its juxtaposition to a heterologous promoter proves that the AP-1 motif is a locus for response to cAMP and PACAP. The luciferase reporter genes bearing the AP-1 motif are not cAMP responsive in HeLa tk- cells, indicating that the mode of second-messenger responsiveness is cell-type specific.
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PMID:Regulation of gene expression in PC12 cells via an activator of dual second messengers: pituitary adenylate cyclase activating polypeptide. 139 81

Spermatogenesis is a temporally regulated developmental process by which the gonadotropin-responsive somatic Sertoli and Leydig cells act interdependently to direct the maturation of the germinal cells. The metabolism of Sertoli and Leydig cells is regulated by the pituitary gonadotropins FSH and LH, which, in turn, activate adenylate cyclase. Because the cAMP-second messenger pathway is activated by FSH and LH, we postulated that the cAMP-responsive element-binding protein (CREB) plays a physiological role in Sertoli and Leydig cells, respectively. Immunocytochemical analyses of rat testicular sections show a remarkably high expression of CREB in the haploid round spermatids and, to some extent, in pachytene spermatocytes and Sertoli cells. Although most of the CREB antigen is detected in the nuclei, some CREB antigen is also present in the cytoplasm. Remarkably, the cytoplasmic CREB results from the translation of a unique alternatively spliced transcript of the CREB gene that incorporates an exon containing multiple stop codons inserted immediately up-stream of the exons encoding the DNA-binding domain of CREB. Thus, the RNA containing the alternatively spliced exon encodes a truncated transcriptional transactivator protein lacking both the DNA-binding domain and nuclear translocation signal of CREB. Most of the CREB transcripts detected in the germinal cells contain the alternatively spliced exon, suggesting a function of the exon to modulate the synthesis of CREB. In the Sertoli cells we observed a striking cyclical (12-day periodicity) increase in the levels of CREB mRNA that coincides with the splicing out of the restrictive exon containing the stop codons. Because earlier studies established that FSH-stimulated cAMP levels in Sertoli cells are also cyclical, and the CREB gene promoter contains cAMP-responsive enhancers, we suggest that the alternative RNA splicing controls a positive autoregulation of CREB gene expression mediated by cAMP.
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PMID:Developmental stage-specific expression of cyclic adenosine 3',5'-monophosphate response element-binding protein CREB during spermatogenesis involves alternative exon splicing. 811 64

The product of the jun proto-oncogene has been identified as one form of the transcription factor AP-1. The p55fos protein associates with jun/AP-1 by means of a heterodimer which requires intact 'leucine zipper' domains of both proteins. The fos/jun heterodimer binds to and activates transcription from TPA-responsive promoter elements (TGACTCA), which represent one final target of the protein kinase C pathway. The other main signal transduction pathway, initiated by the activation of the adenylate cyclase, involves the transcription factor CREB. The promoter element recognized by CREB, a cyclic AMP responsive element (CRE), consist of a palyndromic sequence similar to a TRE (TGACGTCA). We show that jun efficiently trans-activates CRE sequences and that fos and jun efficiently bind and cooperate in activating CRE promoter elements. The similarity between TRE and CRE sequences may involve an interplay in transcriptional regulation and 'cross-talk' between components of the two major signal transduction pathways.
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PMID:Cross-talk in signal transduction: TPA-inducible factor jun/AP-1 activates cAMP-responsive enhancer elements. 210 94

Transcription of proto-oncogene fos is induced by elevated levels of intracellular cAMP. We report that human c-fos promoter recombinants transfected into rat pheochromocytoma cells (PC12) and human choriocarcinoma cells (JEG-3) are induced by stimulation of adenylate cyclase and that this induction is diminished considerably in the mutant PC12 cell line A126-1B2, which is deficient in cAMP-dependent protein kinase II. An element centered at position -60 of the c-fos promoter, which encompasses a consensus cAMP response element (CRE), is sufficient to confer cAMP responsiveness to a herpes thymidine kinase/CAT fusion gene. The specific binding of a nuclear protein to the c-fos CRE can be competed by the somatostatin and alpha-chorionic gonadotropin (alpha-CG) promoter regions that contain CREs. Gel mobility shift assays with double-stranded oligonucleotides containing either the wild-type or mutated c-fos CRE sequence have demonstrated that binding occurs only to the wild-type CRE. The nuclear factor binding to the c-fos CRE is likely to be transcription factor CREB (CRE nuclear binding protein), because an affinity-purified 43-kD CREB isolated from PC12 cells binds efficiently in a DNA footprinting assay. Thus, regulation of the c-fos gene transcription appears to involve a mechanism common to many genes that respond to cAMP as a second message leading to cell growth and differentiation.
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PMID:Induction of proto-oncogene fos transcription through the adenylate cyclase pathway: characterization of a cAMP-responsive element. 285 Sep 67

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

Oncogenic gsp proteins appear to stimulate the transformation of pituitary somatotrophs by inducing the constitutive activation of adenyl cyclase. Previous work implicating the cAMP-responsive transcription factor CREB as a biochemical intermediate in the proliferative response to cAMP led us to examine whether CREB activity was correspondingly elevated in human somatotroph adenomas. In a series of 15 human GH-secreting tumors, we found that each of these contained elevated levels of Ser133-phosphorylated and, hence, activated CREB compared with nonfunctioning pituitary tumors. Four of the GH-secreting adenomas contained an oncogenic gsp gene by polymerase chain reaction analysis, and two additional adenomas expressed wild-type G alpha s protein at 5- to 10-fold higher levels than nonfunctioning pituitary tumors. As both oncogenic gsp and overexpressed G alpha s proteins can induce Ser133 phosphorylation and cAMP-responsive gene expression in transfected GC somatotroph cells, our studies indicate that these proteins may promote somatotroph transformation in part by inducing the transcription of specific CREB-dependent target genes.
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PMID:The cyclic adenosine 3',5'-monophosphate-responsive factor CREB is constitutively activated in human somatotroph adenomas. 747 61

In a previous work, we have shown that T3 induces a potent stimulation of avian myoblast differentiation. In this study, we demonstrated that this hormone did not affect MyoD and myogenin expression. As numerous data suggest that T3 could affect the cAMP pathway, we have studied its involvement in the myogenic activity of triiodothyronine on quail myoblast. In agreement with Zalin and Montagues (Cell 2, 103-108 (1974)), we observed a transient rise in myoblast intracellular cAMP level some hours before the onset of terminal differentiation. Interestingly, this rise occurred earlier in T3-treated than in control myoblasts, and cAMP production was significantly increased by the hormone. Moreover, T3 increased CREB transcriptional activity, thus suggesting that the entire cAMP signaling pathway was stimulated by this hormone. In addition, we observed that addition of an inhibitor of adenylate cyclase activity prior to the cAMP rise dramatically inhibited myoblast differentiation. Last, we showed that cAMP mimicked all T3 actions upon myoblast differentiation: (1) T3 and cAMP reduced myoblast proliferation by increasing the number of postmitotic myoblasts at cell confluence; (2) T3 and cAMP increased BTG1 nuclear accumulation; (3) T3 and cAMP stimulated terminal differentiation only when added during the proliferative phasis. These data strongly suggest that the transient rise in cAMP production could be essential for myoblast terminal differentiation. In addition, it appears that, at least in avian myoblasts, T3 stimulation of terminal differentiation involves the cAMP pathway.
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PMID:Stimulation of avian myoblast differentiation by triiodothyronine: possible involvement of the cAMP pathway. 766 26

Cyclase response elements (CREs) are located in the promoter regions of several neuropeptide and immediate early genes. Activation of the adenylate cylase/cAMP second messenger cascade leads to phosphorylation of CRE-binding proteins (P-CREBs) which bind to CREs in the promoter regions of these genes and alter their rate of transcription. We have previously reported an increase in striatal immunoreactivity for P-CREB (phosphorylated on Ser-133) and Fos following intracerebroventricular (ICV) injection of H2O-soluble forskolin, a direct activator of adenylate cyclase. Because CREs are located in the promoter regions of the opioid peptide genes, preproenkephalin (PPE) and preprodynorphin (PPD), we investigated what effect continuous ICV infusion of H2O-soluble forskolin has on striatal PPE and PPD mRNA levels. Quantitative in situ hybridization histochemistry demonstrated that continuous activation of the adenylate cyclase/cAMP second messenger cascade results in a significant induction of striatal PPE and PPD mRNA at 6, 24, and 72 h. The sustained induction of striatal PPE and PPD mRNA indicates that pro-opioid gene transcription is not desensitized following 72 h of continuous adenylate cyclase activation. Continuous ICV infusion of 1, 9-dideoxyforskolin, a forskolin analog which does not activate adenylate cyclase, did not induce striatal PPE and PPD mRNA. These data are consistent with cAMP-dependent protein kinase-induced phosphorylation and binding of CREBs to CREs in the promoter regions of pro-opioid genes during sustained activation of adenylate cyclase.
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PMID:Forskolin induces preproenkephalin and preprodynorphin mRNA in rat striatum as demonstrated by in situ hybridization histochemistry. 778 55

Promoter regions of the preproenkephalin, preprodynorphin, and c-fos genes contain cyclase response elements (CREs) as well as AP-1 sites. Activation of the adenylate cyclase cascade leads to phosphorylation of cyclase response element binding proteins (P-CREBs) which then bind CREs in these genes and induce transcription. In this experiment, semi-quantitative immunocytochemistry was used to examine striatal CREB-, P-CREB-, and Fos-like immunoreactivity (IR) 1 h following intracerebroventricular injection of H2O-soluble forskolin. Although forskolin did not alter CREB-IR, forskolin did induce striatal P-CREB-IR and Fos-IR by 2.5- and 10-fold, respectively. These data support a role for P-CREB and/or Fos in regulating opioid peptide gene transcription following direct in vivo activation of adenylate cyclase.
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PMID:Forskolin increases phosphorylated-CREB and fos immunoreactivity in rat striatum. 791 67

The CREM gene encodes both activators and repressors of cAMP-induced gene expression. An isoform of CREM encodes the powerful transcriptional repressor ICER (Inducible cAMP Early Repressor), which has been shown to be inducible by virtue of an alternative, intronic promoter. The CREM gene belongs to the early response class and displays a characteristic neuroendocrine cell- and tissue-specific expression. To date ICER inducibility has been described in non-replicating, terminally differentiated tissues. In this paper we document a robust induction of CREM expression in the regenerating rat liver after partial hepatectomy. This represents the first link of inducible CREM expression to the phenomenon of cellular proliferation. Furthermore, it represents the first example of transcriptional activation of a cAMP-responsive factor in the regenerating liver. This has significant physiological relevance since the adenylate cyclase signalling pathway is strongly implicated in liver regeneration. Finally, we show that the repressor ICER is inducible in the hepatoma cell line H35 upon activation of the adenylate cyclase and phosphorylation of the activator CREB.
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PMID:Cyclic AMP signalling pathway and cellular proliferation: induction of CREM during liver regeneration. 912 51

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