EC:4.1.1.32 - FACTA Search

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Query: EC:4.1.1.32 (phosphoenolpyruvate carboxykinase)
4,204 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The gene for phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) (PEPCK) is expressed in a tissue-specific manner in the liver, kidney, and adipose tissue and is regulated by hormones including cAMP and insulin. Previous studies have shown that the CCAAT/enhancer-binding protein alpha (C/EBP alpha) binds to several sites on the PEPCK promoter and activates transcription from the promoter in hepatoma cells. Here, we report that a second member of the C/EBP family, C/EBP beta, bound to the same sites on the PEPCK promoter. However, C/EBP beta stimulated transcription primarily through the cAMP-responsive element (CRE), which maps between positions -77 to -94, but not at the more 5'-binding sites. In addition, the nuclear factor-1 site, which is immediately adjacent to the CRE in the PEPCK promoter, was also required for the full response of the promoter to cotransfected C/EBP beta. In gel mobility assays, antibodies to both C/EBP beta and the cAMP regulatory element-binding protein (CREB), but not to C/EBP alpha, "supershifted" DNA-protein complexes formed between a synthetic CRE oligomer and proteins prepared from rat liver nuclei. C/EBP beta mRNA was expressed at low levels in both the periportal and pericentral regions of the liver lobule, whereas expression of the gene for C/EBP alpha was confined to the pericentral region of the liver lobule. PEPCK gene transcription is greatest in the periportal region of the liver. CREB also bound to the CRE and stimulated transcription of a PEPCK-CAT vector in the presence of an expression vector for the catalytic subunit of protein kinase A. C/EBP beta and CREB bound to the CRE with similar affinities, both of which were greater than the affinity of C/EBP alpha. Within 90 min after the administration of dibutyryl cAMP to rats, there was a marked increase in the hepatic concentration of C/EBP beta mRNA and a decrease in the level of mRNA for C/EBP alpha. These studies indicate that C/EBP beta can regulate PEPCK gene transcription by acting through the CRE and that C/EBP beta, together with CREB, may contribute to the cAMP responsiveness of the PEPCK promoter.
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PMID:Relative roles of CCAAT/enhancer-binding protein beta and cAMP regulatory element-binding protein in controlling transcription of the gene for phosphoenolpyruvate carboxykinase (GTP). 809 46

Transcription of the phosphoenolpyruvate carboxykinase (PEPCK) and PEPCK-chloramphenicol acetyltransferase (CAT) genes is induced by cAMP and glucocorticoids and is inhibited by insulin in H4IIE cells, as it is in liver. In contrast, PEPCK-CAT expression in HepG2 cells is not affected by insulin but is induced by cAMP, which in turn is repressed by glucocorticoids. Mutations were introduced into well defined transcription factor binding sites to investigate possible interactions between the cAMP regulatory element (CRE) binding protein (CREB) and glucocorticoid response unit (GRU) binding proteins. H4IIE rat hepatoma cells were transfected with PEPCK-CAT plasmids with or without an expression vector for protein kinase A (PKA). Glucocorticoid-induced CAT activity was dependent upon the GRU and was decreased in plasmids lacking the CRE. To determine the direct effects of CREB, the DNA binding and dimerization domain of GAL4 was substituted for that of CREB (CRG), and the PEPCK CRE was replaced with a GAL4 binding site (G4PEPCK-CAT). CRG elevated basal and glucocorticoid-induced activities of G4PEPCK-CAT equally and restored responsiveness to PKA. The basal activity of CRG was not diminished by concomitant treatment with PKA plus its inhibitor peptide, PKI, or by mutation of the PKA phosphorylation. Deletion of C-terminal regions of the CREB activation domain from CRG diminished basal activation without affecting induction by PKA. The glucocorticoid-induced level of CAT activity decreased in proportion to the reduced ability of CREB to activate basal transcription. Induction by glucocorticoid, in the absence or presence of PKA, was not affected by CRG, indicating that interaction of GRU-bound factors with CREB is not required for glucocorticoid induction of PEPCK. These results indicate that CREB is directly involved in basal and PKA-induced expression of PEPCK, and that CREB supports glucocorticoid-induced PEPCK expression through its positive effect on basal transcription.
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PMID:Involvement of 3',5'-cyclic adenosine monophosphate regulatory element binding protein (CREB) in both basal and hormone-mediated expression of the phosphoenolpyruvate carboxykinase (PEPCK) gene. 811 62

The minimal promoter/transcription factor requirements for induction of phosphoenolpyruvate carboxykinase (PEPCK) transcription by cAMP-activated protein kinase A (PKA) and inhibition of this induction by insulin were investigated. H4 hepatoma cells were treated with or without insulin following cotransfection with chloramphenicol acetyltransferase reporter genes and expression vectors coding for the cAMP response element-binding protein (CREB) activation domain fused to the GAL4 DNA binding domain (CRG) and the catalytic subunit of PKA. Mutation of the PEPCK CRE to a GAL4 binding site (G4-PEPCK) within the fully responsive PEPCK promoter (-600/+69) made induction by PKA dependent upon cotransfection of CRG and this induction by CRG+PKA was inhibited by insulin. Mutation of the insulin regulatory sequence (delta IRS-G4-PEPCK) did not prevent induction by cAMP or inhibition by insulin. Fusion of GAL4 binding sites to the PEPCK TATA region (-40/+1, G4-PT) allowed induction by CRG+PKA and inhibition by insulin. However, inhibition by insulin was not observed when the CREB activation domain in CRG was replaced with the activation domain of VP16 (G4-VP16) or when the PEPCK TATA region was replaced with TATA regions from other genes. Our results indicate that the minimal requirements for induction of PEPCK by PKA and inhibition by insulin include: 1) the CREB activation domain, 2) the PEPCK TATA sequence, and 3) insulin-responsive hepatoma cells. These data suggest that specific factors interacting with both the PEPCK TATA region and the CREB activation domain are required for insulin inhibition of PKA-induced transcription.
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PMID:Inhibition by insulin of protein kinase A-induced transcription of the phosphoenolpyruvate carboxykinase gene. Mediation by the activation domain of cAMP response element-binding protein (CREB) and factors bound to the TATA box. 818 41

Cyclic-AMP stabilizes phosphoenolpyruvate carboxykinase (GTP) (PEPCK) mRNA against degradation. To investigate the mechanism of this effect, RNA mobility shift assays were used to determine the interaction of cellular proteins with specific domains from the mRNA. We report here the identification of a protein with an affinity for sequences of PEPCK mRNA with a predicted stem-loop structure. RNA-protein complex formation was significantly reduced if the double-stranded RNA probe was preheated to 90 degrees C. The RNA-binding protein did not bind to the hairpin structure of poly(rI)-poly (rC), indicating some degree of sequence specificity and that the RNA-binding protein is not the interferon-induced double-stranded RNA-activated protein kinase. The binding activity was contained in the cytosolic fraction (100,000 x g) of rat hepatoma FTO-2B cells and was significantly enhanced by high concentrations of KCl. Chromatography on an anion exchanger separated the binding activity from a factor which, upon reconstitution, inhibited the interaction with the RNA probe. Incubation of cells with cAMP resulted in a 3-4-fold decrease in the activity of the RNA-binding protein. An inhibition in complex formation was observed with extracts as early as 60 min after exposure of cells to cAMP. Liver extracts from rats starved for 72 h also had reduced binding activity compared to extracts from fed animals. Cellular extracts treated with alkaline phosphatase exhibited an elevated level of complex formation. An analysis by SDS-polyacrylamide gel electrophoresis of the RNA-protein complex after ultraviolet light cross-linking demonstrated that the RNA-binding protein had a molecular mass of approximately 100 kDa. On the basis of these results, we suggest that liver cells contain a protein whose interaction with PEPCK mRNA is regulated by cAMP-dependent phosphorylation and which may be responsible for the cAMP-mediated control of PEPCK mRNA half-life.
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PMID:A cAMP-regulated RNA-binding protein that interacts with phosphoenolpyruvate carboxykinase (GTP) mRNA. 822 67

In this work, the C3-type form of Sorghum phosphoenolpyruvate carboxylase (PyrPC) was produced in PyrPC-deficient strains of Escherichia coli transformed by a plasmid bearing the corresponding full-length cDNA (CPR1). The full-sized protein was purified to homogeneity by immunoaffinity chromatography. Some functional and regulatory properties were described; notably, the immunopurified PyrPC could be phosphorylated in reconstituted assay by 1) both a mammalian PKA and the PyrPC protein serine kinase purified from Sorghum leaves and 2) a novel protein kinase affinity-purified from Sorghum roots. In all cases phosphorylation was accompanied by a marked reduction in its malate sensitivity.
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PMID:Production and properties of recombinant C3-type phosphoenolpyruvate carboxylase from Sorghum vulgare: in vitro phosphorylation by leaf and root PyrPC protein serine kinases. 828 Jan 59

Following in situ renaturation and assay of protein kinase activity after denaturing electrophoresis of relatively impure samples of maize phosphoenolpyruvate carboxylase (PEPC) kinase, a approximately 30-kDa polypeptide was implicated as the best candidate for the PEPC kinase catalytic subunit. This kinase's apparent native molecular weight was estimated at 28,000 by gel filtration on a calibrated Superose 12 column (HR 10/30), suggesting that the isolated PEPC kinase is monomeric. This protein-serine kinase was partially purified about 4000-fold from illuminated maize leaves by ammonium sulfate precipitation and sequential chromatography on Ultrogel AcA 54, hydroxylapatite, blue dextran-agarose, and an analytical AcA 54 column. Analysis by denaturing electrophoresis revealed that a 30-kDa polypeptide copurified with PEPC kinase activity during the final step. This highly purified kinase had an apparent Km (PEPC subunit) of 2.5 microM and a Km (total ATP) of 40 microM at pH 8.0, its pH optimum. Upon in vitro phosphorylation of darkform (dephospho) C4 PEPC at Ser-15 (maize PEPC) or Ser-8 (sorghum), the malate sensitivity of the target enzyme decreased significantly. The maize PEPC kinase activity was markedly inhibited by L-malate, a negative allosteric effector of its protein substrate, in a concentration- and pH-dependent manner. Comparative phosphorylation studies with the catalytic subunit of mammalian cAMP-dependent protein kinase and casein revealed that a significant part of the malate inhibition of PEPC kinase activity in vitro was due to this effector's interaction with PEPC. The activity of both the highly purified PEPC kinase and a less pure sample prepared rapidly in the presence of various protease inhibitors was insensitive to Ca2+ chelation or addition. It is concluded that the approximately 30-kDa maize PEPC kinase is a low abundance, Ca(2+)-independent protein-serine kinase that activates its target enzyme by the exclusive phosphorylation of the regulatory serine residue near the N terminus and the resulting decrease in feedback inhibition by L-malate.
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PMID:Partial purification and characterization of phosphoenolpyruvate carboxylase protein-serine kinase from illuminated maize leaves. 834 24

Cyclic AMP (cAMP)-dependent protein kinase A (PKA) stimulates the transcription of many eucaryotic genes by catalyzing the phosphorylation of the cAMP-regulatory element binding protein (CREB). Conversely, the attenuation or inhibition of cAMP-stimulated gene transcription would require the dephosphorylation of CREB by a nuclear protein phosphatase. In HepG2 cells treated with the protein serine/threonine (Ser/Thr) phosphatase inhibitor okadaic acid, dibutyryl-cAMP-stimulated transcription from the phosphoenolpyruvate carboxykinase (PEPCK) promoter was enhanced over the level of PEPCK gene transcription observed in cells treated with dibutyryl-cAMP alone. This process was mediated, at least in part, by a region of the PEPCK promoter that binds CREB. Likewise, okadaic acid prevents the dephosphorylation of PKA-phosphorylated CREB in rat liver nuclear extracts and enhances the ability of PKA to stimulate transcription from the PEPCK promoter in cell-free reactions. The ability of okadaic acid to enhance PKA-stimulated transcription in vitro was entirely dependent on the presence of CREB in the reactions. The phospho-CREB (P-CREB) phosphatase activity present in nuclear extracts coelutes with protein Ser/Thr phosphatase type 2A (PP2A) on Mono Q, amino-hexyl Sepharose, and heparin agarose columns and was chromatographically resolved from nuclear protein Ser/Thr-phosphatase type 1 (PP1). Furthermore, P-CREB phosphatase activity in nuclear extracts was unaffected by the heat-stable protein inhibitor-2, which is a potent and selective inhibitor of PP1. Nuclear PP2A dephosphorylated P-CREB 30-fold more efficiently than did nuclear PP1. Finally, when PKA-phosphorylated CREB was treated with immunopurified PP2A and PP1, the PP2A-treated CREB did not stimulate transcription from the PEPCK promoter in vitro, whereas the PP1-treated CREB retained the ability to stimulate transcription. Nuclear PP2A appears to be the primary phosphatase that dephosphorylates PKA-phosphorylated CREB.
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PMID:Nuclear protein phosphatase 2A dephosphorylates protein kinase A-phosphorylated CREB and regulates CREB transcriptional stimulation. 838 17

PCK1 encoding phosphoenolpyruvate carboxykinase is transcriptionally regulated by two upstream activating elements. By screening for mutants that failed to derepress a UAS2PCK1-CYC1-lacZ reporter gene we isolated the new recessive derepression mutation cat5. The CAT5 gene encodes a protein of 272 amino acids showing a 42% identity to the ZC395.2 gene product of Caenorhabditis elegans whose function is unknown. Deletion of CAT5 caused a complete loss of glucose derepression affecting gluconeogenic key enzymes. Respiration, but not mitochondrial cytochrome c oxidase activity, was also affected. CAT5 expression is 5- to 6-fold repressed by glucose, and CAT5 transcriptional activation was dependent on CAT1 (SNF1), CAT8 and CAT5 itself. The CAT5 gene is necessary for UAS1PCK1 and UAS2PCK1 protein binding since a carbon source-specific interaction was no longer detectable in cat5 mutants. Glucose derepression of gluconeogenesis depends on the active Cat1 (Snf1) protein kinase and the Cat8 zinc cluster activator. Mig1p-independent overexpression of CAT8 did not stimulate activation of gluconeogenic promoters in cat1 and in cat5 mutants. Since Cat8p multicopy expression suppresses the ethanol growth deficiency in cat1 (snf1) mutants, these results indicate that activation of Cat8p by the Cat1p (Snf1p) kinase and the Cat5p protein might be necessary for release from glucose repression.
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PMID:CAT5, a new gene necessary for derepression of gluconeogenic enzymes in Saccharomyces cerevisiae. 855 31

The gene coding for phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) is expressed in all gluconeogenic tissues, but stimulation of its rate of transcription by cAMP is robust only in liver. Evidence has accumulated which suggests that a liver-enriched transcription factor, likely a member of the CCAAT/enhancer binding protein (C/EBP) family, is required along with other ubiquitously expressed transcription factors to mediate this liver-specific response to cAMP. In this study, we examined the ability of C/EBP to participate in the cAMP-mediated activation of phosphoenolpyruvate carboxykinase (PEPCK) gene transcription in hepatoma cells. Expression of a dominant repressor of C/EBP in hepatoma cells significantly inhibited the protein kinase A-stimulated transcription of the PEPCK promoter, suggesting that a C/EBP family member was required for maximal transcriptional activation by protein kinase A. To provide additional support for this hypothesis, we prepared GAL4 fusion proteins containing C/EBP domains. Both C/EBPalpha and C/EBPbeta GAL4 fusion proteins were capable of stimulating transcription from promoters containing binding sites for the DNA-binding domain of GAL4. However, only the GAL4-C/EBPalpha fusion protein demonstrated the ability to synergize with the other transcription factors bound to the PEPCK promoter which are required to mediate cAMP responsiveness. The DNA-binding domain of C/EBPalpha was not required for this activity in hepatoma cells, although in non-hepatoma cells the basic region leucine zipper domain appeared to inhibit the ability of C/EBPalpha to participate in mediating cAMP responsiveness. These results suggest that the liver-specific nature of the cAMP responsiveness of the PEPCK promoter involves the recruitment of C/EBPalpha to the cAMP response unit.
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PMID:The alpha-isoform of the CCAAT/enhancer-binding protein is required for mediating cAMP responsiveness of the phosphoenolpyruvate carboxykinase promoter in hepatoma cells. 862 91

The transcription of the yeast FBP1 and PCK1 genes, which encode the gluconeogenic enzymes fructose-1,6-bisphosphatase and phosphoenolpyruvate carboxykinase, is repressed by glucose. Here, we show that this repression is both very strong and exceptionally sensitive to glucose, being triggered by glucose at concentrations less than 0.005% (0.27 mM). This repression remains operative in yeast mutants carrying any one of the three hexose kinases, but is lost in a triple hxk1, hxk2, glk1 mutant. In addition, 2-deoxyglucose can trigger the repression, but 6-deoxyglucose cannot, suggesting that internalization and phosphorylation of the glucose is essential for repression to occur. While gluconeogenic gene transcription is subject to the Mig 1p-dependent pathway of glucose repression, the exquisite response to glucose is maintained in hxk2 and mig1 mutants, suggesting that this pathway is not essential for the response. The response can also be triggered by the addition of exogenous cAMP, suggesting that the Ras/cAMP pathway can mediate repression of the FPB1 and PCK1 mRNAs. However, the response is not dependent upon this pathway because it remains intact in Ras, adenyl cyclase and protein kinase A mutants. The data show that yeast cells can detect very low glucose concentrations in the environment, and suggest that several distinct signalling pathways operate to repress FPB1 and PCK1 transcription in the presence of glucose.
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PMID:Multiple signalling pathways trigger the exquisite sensitivity of yeast gluconeogenic mRNAs to glucose. 879 72

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