EC:2.7.11.11 - FACTA Search

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Query: EC:2.7.11.11 (AMPK)
12,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cyclic AMP (cAMP) is an important regulator of liver growth and differentiation. The main intracellular cAMP receptor, cAMP-dependent protein kinase (PKA), consists of two regulatory (R) and two catalytic (C) subunits. There are two classes, RI and RII, of the regulatory subunit, giving rise to type I (RI2C2) and type II (RII2C2) PKA. The RI/RII ratio generally decreases during organ development, and increases during carcinogenesis. Alterations in this ratio have been implicated as an important factor in experimental and clinical carcinogenesis. We have studied the expression of RIalpha, RIIalpha, Calpha, and an important substrate of PKA, the cAMP-response element binding protein, during rat liver carcinogenesis. Two-color immunofluorescence and confocal laser scan microscopy were used to characterize localization of the cAMP-dependent signal transducers in hepatocytes, bile ducts, oval cells, and preneoplastic lesions. We found that bile ducts and oval cells (putative liver stem cells) contained a higher RI/RII ratio than hepatocytes and preneoplastic lesions. Thus, an altered RI/RII ratio was not detected during early rat liver carcinogenesis, but may contribute to differentiation of putative liver stem cells to hepatocytes.
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PMID:Localization of cAMP-dependent signal transducers in early rat liver carcinogenesis. 954 68

Uncoupling protein (UCP) 2 is a member of the uncoupling-protein family, and it appears to function as an uncoupler of oxidative phosphorylation. To identify cis-acting regulatory elements controlling this gene's expression, we cloned an approx. 6.2-kb region upstream from the translation-initiation site of the mouse UCP2 gene and analysed its transcription activity using chimaeric mouse UCP2 promoter-placental-alkaline-phosphatase (PLAP) reporter-gene constructs. Sequence analysis showed that the 5'-flanking region of the mouse UCP2 gene was not similar to those of mouse UCP1 or UCP3. For the mouse UCP2, the region near the transcription-initiation site lacked the typical TATA box, but was GC-rich, resulting in presence of several potential specificity protein 1 (Sp-1), activator protein (AP)-1 and AP-2 binding sites. The putative regulatory motifs for muscle-regulatory protein (MyoD), brown-fat regulatory element, CCAAT box, cAMP-response element and Y box were also found in the mouse UCP2 promoter region by computer-assisted analysis. From the results of Northern-blot analysis and transient expression assay, we found that the mouse UCP2 gene responded to the cAMP-dependent protein kinase alpha-catalytic subunit signal activation at the transcription level. Additionally, deletion analysis of the UCP2 promoter-PLAP constructs indicated that the minimal region exhibiting the promoter activity was located between nt -33 and +100, and that a strong enhancer was present within 601 bp of the 5'-promoter region. In particular, the region from nt -233 to -34 significantly induced PLAP activity in the cell lines derived from various tissues and in the primary culture cells of rat brown adipose tissue, suggesting that this region is most important for the ubiquitous expression of mouse UCP2 mRNA. Furthermore, it was shown that two silencer elements were involved in the mouse UCP2 gene; one was located between nt -2746 and -602, and the other was identified in intron 1. These regions deprived the enhancer of the ability to induce PLAP activity. This study shows a fundamental role for positive and negative cis-acting DNA elements in regulating the basal and cAMP-induced transcription activity of the mouse UCP2 gene.
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PMID:Mechanism of ubiquitous expression of mouse uncoupling protein 2 mRNA: control by cis-acting DNA element in 5'-flanking region. 1033 81

Ethanol induces translocation of the catalytic subunit (Calpha) of cAMP-dependent protein kinase (PKA) from the Golgi area to the nucleus in NG108-15 cells. Ethanol also induces translocation of the RIIbeta regulatory subunit of PKA to the nucleus; RI and Cbeta are not translocated. Nuclear PKA activity in ethanol-treated cells is no longer regulated by cAMP. Gel filtration and immunoprecipitation analysis confirm that ethanol blocks the reassociation of Calpha with RII but does not induce dissociation of these subunits. Ethanol also reduces inhibition of Calpha by the PKA inhibitor PKI. Pre-incubation of Calpha with ethanol decreases phosphorylation of Leu-Arg-Arg-Ala-Ser-Leu-Gly (Kemptide) and casein but has no effect on the phosphorylation of highly charged molecules such as histone H1 or protamine. cAMP-response element-binding protein (CREB) phosphorylation by Calpha is also increased in ethanol-treated cells. This increase in CREB phosphorylation is inhibited by the PKA antagonist (R(p))-cAMPS and by an adenosine receptor antagonist. These results suggest that ethanol affects a cascade of events allowing for sustained nuclear localization of Calpha and prolonged CREB phosphorylation. These events may account for ethanol-induced changes in cAMP-dependent gene expression.
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PMID:Ethanol-induced translocation of cAMP-dependent protein kinase to the nucleus. Mechanism and functional consequences. 1048 Sep 11

5-Aminolevulinate synthase (ALA-S) is a mitochondrial matrix enzyme that catalyzes the first and rate-limiting step of the heme biosynthesis. There are two ALA-S isozymes encoded by distinct genes. One gene encodes an isozyme that is expressed exclusively in erythroid cells, and the other gene encodes a housekeeping isozyme that is apparently expressed in all tissues. In this report we examine the mechanisms by which phenobarbital and cAMP regulate housekeeping ALA-S expression. We have determined that cAMP and phenobarbital effects are additive and the combined action is necessary to observe the cAMP effect on ALA-S mRNA in rat hepatocytes. The role of the cAMP-dependent protein kinase (PKA) has been examined. A synergism effect on ALA-S mRNA induction is observed in rat hepatocytes treated with pairs of selective analogs by each PKA cAMP binding sites. A 870-bp fragment of ALA-S 5'-flanking region is able to provide cAMP and phenobarbital stimulation to chloramphenicol O-acetyltranferase fusion vectors in transiently transfected HepG2 cells. ALA-S promoter activity is induced by cotransfection with an expression vector containing the catalytic subunit of PKA. Furthermore, cotransfection with a dominant negative mutant of the PKA regulatory subunit impairs the cAMP analog-mediated increase, but the phenobarbital-mediated induction is not modified. Our data suggest that the transcription factor cAMP-response element binding protein (CREB) is probably involved in PKA induction of ALA-S gene expression. Finally, heme addition greatly decreases the basal and phenobarbital or cAMP analog-mediated induction of ALA-S promoter activity. The present work provides evidence that cAMP, through PKA-mediated CREB phosphorylation, and phenobarbital induce ALA-S expression at the transcriptional level, while heme represses it.
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PMID:Transcriptional regulation of 5-aminolevulinate synthase by phenobarbital and cAMP-dependent protein kinase. 1060 Jan 63

In the rat pineal gland neuronal signals determine the rhythmic synthesis of the hormone melatonin. Norepinephrine (NE) is the principal neurotransmitter that drives hormone synthesis by activating the cAMP signaling pathway. This activation depends on transcriptional and posttranscriptional regulatory mechanisms. The cAMP-dependent transcriptional regulation of the rate-limiting enzyme of melatonin synthesis, arylalkylamine-N-acetyltransferase (AA-NAT) involves the activating transcription factor (TF) CREB and the inhibitory TF ICER. By silencing elements of this cAMP-dependent neuroendocrine transduction cascade we wished to gain further insight into the role of ICER in the regulation of gene expression in rat pineal gland. Inhibition of specific kinases in primary pinealocyte cultures showed that ICER induction depends pivotally on the activation of cAMP-dependent protein kinase II. Eliminating ICER's impact by transfecting antisense constructs into pinealocytes revealed a predominant beta-adrenergic mechanism in regulating a cotransfected CRE-inducible reporter gene and notably, also the endogenous AA-NAT gene. Deciphering molecular details of the cAMP-dependent gene expression in mammalian pinealocytes provides a basis for understanding the general architecture of this signaling pathway that serves adaptive processes ubiquitously in the organism.
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PMID:Antisense experiments reveal molecular details on mechanisms of ICER suppressing cAMP-inducible genes in rat pinealocytes. 1094 37

cAMP signaling contributes to the control of the developmental progression of germ cells during the spermatogenic cycle. Genes regulated by cAMP include those encoding transcription factors such as the cAMP-responsive element modulator (CREM). The disruption of CREM gene expression in crem null mice results in arrest of spermatogenesis and infertility. The transcriptional control of the CREM gene is attributed to two promoters, P1 and P2. The P1 promoter constitutively activates the synthesis of messenger RNAs encoding activator (tau) and repressor (alpha) forms of CREM, whereas the cAMP-responsive P2 promoter activates the formation of messenger RNAs encoding the inducible cAMP early repressor. Here we report the identification of two additional promoters in the CREM gene, P3 and P4, that in the rat testis encode two novel transcriptional activator CREM isoforms, termed CREM theta1 and CREM theta2, respectively. Notably, the P3 and P4 promoters are activated by cAMP-dependent protein kinase, thereby providing cAMP-regulated transcription of CREM activators in addition to the established cAMP-regulated inducible cAMP early repressor. Analysis ex vivo of CREM gene expression in temporally staged segments of the seminiferous tubule during the spermatogenic cycle shows that the activities of the P1, P3, and P4 promoters are independently regulated. Our identification of the cAMP-activated P3 and P4 promoters that direct expression of the novel theta1 and theta2 activator isoforms of CREM brings further insight into the complex expression of the CREM gene during germ cell development and may have implications in understanding the control of fertility.
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PMID:Novel cyclic adenosine 3',5'-monophosphate (cAMP) response element modulator theta isoforms expressed by two newly identified cAMP-responsive promoters active in the testis. 1108 20

Multiple neuroactive substances are secreted by neurons and/or glial cells and modulate the sensitivity to cell death. In the developing retina, it has been shown that increased intracellular levels of cAMP protect cells from degeneration. We tested the hypothesis that the neuroactive peptide pituitary adenylyl cyclase-activating polypeptide (PACAP) has neuroprotective effects upon the developing rat retina. PACAP38 prevented anisomycin-induced cell death in the neuroblastic layer (NBL) of retinal explants, and complete inhibition of induced cell death was obtained with 1 nm. A similar protective effect was observed with PACAP27 and with the specific PAC1 receptor agonist maxadilan but not with glucagon. Photoreceptor cell death induced by thapsigargin was also prevented by PACAP38. The neuroprotective effect of PACAP38 upon the NBL could be reverted by the competitive PACAP receptor antagonist PACAP6-38 and by the specific PAC1 receptor antagonist Maxd.4. Molecular and immunohistochemical analysis demonstrated PAC1 receptors, and treatment with PACAP38 induced phospho-cAMP-response element-binding protein immunoreactivity in the anisomycin-sensitive undifferentiated postmitotic cells within the NBL. PACAP38 produced an increase in cAMP but not inositol triphosphate, and treatment with the cAMP-dependent protein kinase inhibitor R(p)-cAMPS blocked the protective effect of PACAP38. The results indicate that activation of PAC1 receptors by PACAP38 modulates cell death in the developing retina through the intracellular cAMP/cAMP-dependent protein kinase pathway.
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PMID:Pituitary adenylyl cyclase-activating polypeptide prevents induced cell death in retinal tissue through activation of cyclic AMP-dependent protein kinase. 1184 14

Salt-inducible kinase (SIK), one of the serine/threonine protein kinases, was transiently expressed in Y1 cells during the early phase of the ACTH/cAMP-dependent protein kinase (PKA)-mediated signal transduction. The overexpression of SIK(N), the SIK's N-terminal kinase domain, repressed the expression of the side chain cleavage cytochrome P450 (CYP11A) gene. To elucidate the mechanism of the repression by SIK, several CYP11A promoter constructs were tested for the promoter activities in the presence of PKA and/or SIK(N). A cAMP-response element (CRE)-like sequence present in the promoter was shown to be responsible not only for the PKA-mediated promoter activation but also for the SIK(N)-mediated repression. When the Gal4 DNA binding domain-linked full-length CRE-binding protein (CREB) construct was cotransfected with Gal4 reporter gene, SIK(N) repressed the PKA-induced reporter gene expression. However, SIK(N) could not repress the PKA-induced reporter activity conferred by Gal4 DNA binding domain-linked basic leucine zipper (bZIP)-less CREB or bZIP-disrupted CREB. On the other hand, SIK(N) could repress the kinase-inducible domain-disrupted CREB-dependent reporter gene expression in the presence of PKA. The in vitro kinase reaction studies showed that SIK(N) could not phosphorylate CREB, and PKA failed to phosphorylate SIK(N). Taken together, these results suggest that SIK(N), cooperating with PKA, may act on the CREB's bZIP domain and repress the CREB-mediated transcriptional activation of the CYP11A gene.
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PMID:Salt-inducible kinase represses cAMP-dependent protein kinase-mediated activation of human cholesterol side chain cleavage cytochrome P450 promoter through the CREB basic leucine zipper domain. 1186 72

The C gamma and C alpha isoforms of the cAMP-dependent protein kinase (PKA) share 83% identity including all critical catalytic and substrate-binding residues defined to date. Compared to C alpha, C gamma has a different substrate specificity and a selective pseudosubstrate specificity, exhibiting inhibition by regulatory subunits, but not by the protein kinase inhibitor. In these studies, C gamma-mediated gene transcription regulation was compared with that of C alpha in four cell lines using transient transfection/dual luciferase assays. As compared to C gamma, C alpha more efficiently activated a cAMP-response element (CRE)-regulated fragment of the human alpha-glycoprotein hormone promoter which was coupled to a firefly luciferase reporter gene (pGH alpha-fluc). This occurred in Cos7, Y1, and Kin8 adrenal cells by 23-, 6.5-, and 1.4-fold, respectively. In contrast, C gamma, but not C alpha, activated the Sp1RE-regulated herpes simplex virus thymidine kinase promoter which was coupled to a Renilla luciferase reporter (pTK-rluc). In Sp1-deficient Sf9 cells, pGH alpha-fluc expression was maintained for both isoforms, but cotransfection with an Sp1 expression plasmid was necessary and sufficient for activation of pTK-rluc expression by C gamma. In all cell lines, cotransfection with a PDK1 expression plasmid enhanced the transcriptional activation of both C alpha and C gamma (1.5- to 3-fold), while a catalytically inactive PDK1 mutant (PDK.KD) did not. These results suggest that both C alpha and C gamma can activate CRE-responsive genes; however, C alpha does so with better efficiency than C gamma. In contrast to C alpha, C gamma activates transcription of genes containing pTK-like Sp1RE sites. Activation of different C subunit isoforms can provide a means to diversify cAMP-mediated transcription, possibly affecting cell phenotype.
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PMID:Differential transcriptional regulation by the alpha- and gamma-catalytic subunit isoforms of cAMP-dependent protein kinase. 1213 71

Nuclear calcium signals associated with electrical activation of neurons can control the activity of the transcription factor cAMP-response element binding protein (CREB). Yet, cAMP is thought to be the key messenger that links synaptic activity to the regulation of CREB-mediated transcription. It is generally assumed that synaptic activity increases the intracellular levels of cAMP; this causes activation of the cAMP-dependent protein kinase (PKA) that regulates CREB-mediated transcription either directly or through controlling nuclear signalling of the MAP kinases/extracellular signal-regulated kinases (ERK1/2) pathway. Here we show that, in hippocampal neurons, synaptic activity failed to increase global levels of cAMP that would be required for the cAMP-PKA system to induce nuclear events. Even near-continuous bursting of action potentials, giving rise to large nuclear calcium signals and robust CREB-dependent transcription, left global intracellular levels of cAMP unchanged. These results suggest that the cAMP-PKA system does not function as the transducer of synaptic signals to the nucleus. They indicate that the known inhibitory effects of blockers of PKA on gene expression and long-lasting plasticity triggered by calcium entry reflect a gating function of basal activity of PKA that renders neurons permissive for nuclear calcium-regulated, CREB/CBP-dependent gene expression.
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PMID:Synaptic activity induces signalling to CREB without increasing global levels of cAMP in hippocampal neurons. 1255 64

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