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)

Mammalian spermatogenesis consists of a series of complex developmental processes controlled by the pituitary-hypothalamic axis. This flow of biochemical information is directly regulated by the adenylate cyclase signal transduction pathway. We have previously described the CREM (cyclic AMP-responsive element modulator) gene which generates, by cell-specific splicing, alternative antagonists of the cAMP transcriptional response. Here we report the expression of a novel CREM isoform (CREM tau) in adult testis. CREM tau differs from the previously characterized CREM antagonists by the coordinate insertion of two glutamine-rich domains that confer transcriptional activation function. During spermatogenesis there was an abrupt switch in CREM expression. In premeiotic germ cells CREM is expressed at low amounts in the antagonist form. Subsequently, from the pachytene spermatocyte stage onwards, a splicing event generates exclusively the CREM tau activator, which accumulates in extremely high amounts. This splicing-dependent reversal in CREM function represents an important example of developmental modulation in gene expression.
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PMID:Developmental switch of CREM function during spermatogenesis: from antagonist to activator. 137 May 76

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

A 203-base-pair sequence 5' of the latency-associated transcripts (LATs) of herpes simplex virus type 1 contains a 7-base consensus sequence TGCGTCA that is identical to the cAMP-response element of the proenkephalin gene. This consensus sequence is at -38 relative to the putative 5' end of the LATs with a TATA box at the -24 position. In transient chloramphenicol acetyltransferase assays in rat pheochromocytoma (PC12) cells, this enhancer region stimulated gene expression up to 3-fold in the presence of dibutyryl cAMP, forskolin, nerve growth factor, or phorbol 12-myristate 13-acetate. Mutation of the cAMP-response element to TGCG-CAA resulted in a 4-fold reduction of basal activity and a complete loss of inducible stimulation. In DNA gel retardation assays, purified cAMP-response element-binding protein and a nuclear protein from PC12 cells were shown to bind specifically to this element. Furthermore, it was demonstrated that the reactivation of wild-type herpes simplex virus type 1 from dissociated latently infected murine trigeminal ganglia was significantly accelerated (P less than 0.005) by the addition of cAMP analogs or adenylate cyclase activators. However, these reagents did not accelerate reactivation of a deletion mutant that lacks the putative cAMP-response element-containing promoter region, transcriptional start site, and 1015 base pairs of the LATs. These studies demonstrate that the promoter region of the LATs contains a functional cAMP-response element and that expression of the LATs is likely controlled by second messenger signal transduction and imply a role for cAMP in triggering viral reactivation.
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PMID:The promoter of the latency-associated transcripts of herpes simplex virus type 1 contains a functional cAMP-response element: role of the latency-associated transcripts and cAMP in reactivation of viral latency. 184 42

The gene encoding proopiomelanocortin(POMC) offers an interesting model for negative regulation of gene transcription by glucocorticoids. A fragment of human genomic DNA containing the entire POMC gene, together with the neo marker gene, was introduced by transfection into the ACTH-producing mouse pituitary tumor cell line, AtT-20, and the mouse fibroblast L cell line. In the transformed AtT-20 cells the human POMC gene was transcribed correctly and the transcript was spliced faithfully. Furthermore, the addition of dexamethasone to the transformed AtT-20 cells resulted in a 40% reduction of the human POMC mRNA levels. Deletion analysis demonstrated that no more than 417 bp in the 5'-flanking region of the human POMC gene are required for transcriptional repression by glucocorticoid. This region was also responsible for the transcription induction of the human POMC gene by cyclic AMP (cAMP). In the transformed L cells, however, most of the transcripts of the human POMC gene were not correctly initiated. The addition of dexamethasone to the transformed L cells did not significantly affect the content of human POMC mRNA, although these cells expressed glucocorticoid receptor(GR). However, the increase of the transcripts by forskolin, a post-receptor adenylate cyclase-activating agent, was partially but significantly suppressed by dexamethasone in the transformed L cells. These results suggest that binding of GR to the negative glucocorticoid response element (nGRE) could lead to steric occlusion of positive transcription factors, such as cAMP-response element binding protein and tissue specific factors or that GR bound to nGRE could interact with DNA-bound positive factors in such a way as to prevent their transcriptional stimulatory activity.
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PMID:Molecular mechanisms of glucocorticoid inhibition of human proopiomelanocortin gene transcription. 195 35

Destruction of the substantia nigra produces striatal D1 dopamine receptor supersensitivity without increasing receptor number or affinity, thus implicating postreceptor mechanisms. The nature of these mechanisms is unknown. Increased striatal c-fos expression ipsilateral to a unilateral lesion of the substantia nigra in rats treated with appropriate dopamine agonists provides a cellular marker of D1 receptor supersensitivity. D1 receptors are positively linked to adenylate cyclase and therefore to cAMP-dependent protein kinase. Because expression of the c-fos gene in response to cAMP- and Ca2+/calmodulin-regulated protein kinases depends on phosphorylation of cAMP-response element-binding protein (CREB) at Ser-133, we examined CREB phosphorylation after dopaminergic stimulation in cultured striatal neurons and in the striatum of rats after unilateral 6-hydroxydopamine ablation of the substantia nigra. Using an antiserum specific for CREB phosphorylated at Ser-133, we found that dopamine increases CREB phosphorylation in cultured striatal neurons. This effect was blocked by a D1 antagonist. L-Dopa produced marked CREB phosphorylation in striatal neurons in rats ipsilateral, but not contralateral, to a 6-hydroxydopamine lesion. This response was blocked by a D1 antagonist, but not a D2 antagonist, and was reproduced by a D1 agonist, but not a D2 agonist. These findings are consistent with the hypothesis that D1 receptor supersensitivity is associated with upregulated activity of cAMP-dependent or Ca2+/calmodulin-dependent protein kinases, or both, following dopamine denervation of striatal neurons.
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PMID:6-Hydroxydopamine lesions of rat substantia nigra up-regulate dopamine-induced phosphorylation of the cAMP-response element-binding protein in striatal neurons. 793 19

Single gene mutants of Drosophila that are defective in learning/memory processes have increased substantially our understanding of the physiology, biochemistry, and anatomy underlying conditioned behaviors. Drosophila learning mutants can be separated into two general classes, those with structural defects in the brain and those without (conditioning mutants) any obvious brain alterations. From studies of brain structural mutants, two neuroanatomic areas have merged as important for normal conditioned behavior: the mushroom bodies and the central complex. Biochemical and molecular genetic studies of the conditioning mutants have implicated numerous types of molecules in learning, but the adenosine 3',5'-cyclic monophosphate (cAMP) second messenger pathway has emerged as especially important. Five different genes in this pathway, amnesiac (a product similar to adenylate cyclase activating peptides), dunce (cAMP phosophodiesterase), rutabaga (adenylyl cyclase), DCO (protein kinase A), and dCREB2 (cAMP-response element binding protein), have proven important for normal learning. The products of many of these learning mutants are enriched in mushroom bodies, which highlight the importance of mushroom bodies for normal learning and the cAMP second messenger cascade for the physiology of mushroom body cells in their role(s) underlying learning. Physiological studies of the mutants have demonstrated that plastic properties of synaptic transmission, including facilitation and posttetanic potentiation, are abnormal in the mutants. An appendix describing the currently used paradigms to test Drosophila behavior is included.
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PMID:Physiology and biochemistry of Drosophila learning mutants. 861 59

In eukaryotes, transcriptional regulation upon stimulation of the adenylate cyclase signalling pathway is mediated by a family of cAMP-responsive nuclear factors. This family consists of a large number of members which may act as activators or repressors. These factors contain the basic domain/leucine zipper motifs and bind as dimers to cAMP-response elements (CRE). The function of CRE-binding proteins is modulated by phosphorylation by several kinases. The ICER (inducible cAMP early repressor) protein is the only inducible member of this family. The induction of this powerful repressor is likely to be important for the transient nature of cAMP-induced gene expression. CRE-binding proteins have been found to play an important role in the physiology of the pituitary gland, in regulating spermatogenesis, in the response to circadian rhythms and in the molecular basis of memory.
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PMID:The nuclear response to cAMP: role of transcription factor CREM. 865 Feb 67

In eukaryotes, transcriptional regulation upon stimulation of the adenylate cyclase signaling pathway is mediated by a family of cAMP-responsive nuclear factors. This family consists of a large number of members that may act as activators or repressors. These factors contain the basic domain/leucine zipper motifs and bind as dimers to cAMP-response elements (CRE). The function of CRE-binding proteins is modulated by phosphorylation by several kinases. The ICER (inducible cAMP early repressor) protein is the only inducible member of this family. The induction of this powerful repressor is likely to be important for the transient nature of cAMP-induced gene expression. CRE-binding proteins have been found to play an important role in the physiology of the pituitary gland, in regulating spermatogenesis, in the response to circadian rhythms, and in the molecular basis of memory.
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PMID:Transcription factors responsive to cAMP. 868 62

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

The cAMP signalling pathway plays a key role in the regulation of the hypothalamic-pituitary-adrenal axis. Transcription factor CREM (cAMP response element modulator) is implicated in the modulation of a number of neuroendocrine functions. By virtue of an alternative, intronic promoter CREM generates the powerful transcriptional repressor ICER (inducible cAMP early repressor), which displays a pronounced neuroendocrine-specific expression. Here we document a remarkable induction of ICER in response to acute stress in the intermediate lobe (IL) of the pituitary gland. The induction is transient and is preceded by CREB phosphorylation. Adrenergic stimulation directs ICER induction in the IL through the activation of both beta2-adrenergic and corticotrophin-releasing hormone receptors. These receptors are positively coupled to the adenylate cyclase signalling pathway, which regulates hormone release from the IL, implicating ICER in the modulation of peptide secretion. We show that targeted ablation of the CREM gene in the mouse causes a chronic increase of beta-endorphin levels. Altered hormonal production occurs both in basal conditions and after stress. Thus, early ICER induction in the IL may be involved in the modulation of gene expression in response to stress.
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PMID:The inducible cyclic adenosine monophosphate early repressor (ICER) in the pituitary intermediate lobe: role in the stress response. 1058 Aug 43

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