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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)
Transcription of
phosphoenolpyruvate carboxykinase
(
PEPCK
) gene is induced in response to cyclic AMP (cAMP) or cAMP elevating hormones. The role of transcription factors (DNA binding proteins) in the induction process has been studied. Two nuclear proteins, apparent mol. wt of 53 and 30 kDa, have been shown to bind to the 5'-flanking DNA of
PEPCK
gene which contains hormonal responsive elements as well as TATA box. DNA binding activity of 53 kDa protein increases by 3.5 fold in cells treated with 8-(4-chlorophenylthio)-cAMP (8-CPT-cAMP). The increased binding activity may be due to the phosphorylation of this protein by an activated
cAMP-dependent protein kinase
(cA kinase) in treated cells. Based on this observation, a hypothesis that 53 kDa may be specific transcription factor for
PEPCK
and therefore, play a major role in the regulation of this gene is proposed.
...
PMID:Identification of DNA binding proteins which may regulate phosphoenolpyruvate carboxykinase gene. 191 37
We have examined the binding of factors in rat liver nuclear extracts to the
phosphoenolpyruvate carboxykinase
(
PEPCK
) gene cyclic AMP (cAMP) response element (CRE) and other CREs and have isolated a rat liver CRE-binding protein (CREBP) cDNA. In addition, we have examined the influence of altering the phosphorylation state of nuclear factors on both CRE binding and in vitro transcription. Specific binding to the
PEPCK
CRE was measured in a mobility shift assay. CRE sequences of the
PEPCK
, somatostatin, and glycoprotein hormone alpha subunit genes competed equally for binding of rat liver nuclear factors to the
PEPCK
CRE, whereas mutant
PEPCK
CRE sequences did not compete for binding. Oligonucleotides complementary to rat pheochromocytoma CREBP (Gonzalez et al., Nature [London] 337:749-752, 1989) were used to prime rat liver and brain cDNA in the polymerase chain reaction. The predominant CREBP molecule obtained was identical to the rat pheochromocytoma CREBP except for a 14-amino-acid deletion in the N-terminal half that was also present in a human placental cDNA (Hoeffler et al., Science 242:1430-1433, 1988). The regulation of transcription by cAMP was examined by coincubation of rat liver nuclear extract with the purified catalytic subunit of
cAMP-dependent protein kinase
(protein kinase A). Although binding to the CRE was unaffected, in vitro transcription directed by the
PEPCK
promoter was stimulated by catalytic subunit, and this effect was blocked by protein kinase inhibitor peptide. In contrast, when nuclear extract was coincubated with phosphatase, there was substantial inhibition of in vitro transcription directed by the
PEPCK
promoter, but there was no effect on binding to the CRE. The major effects of catalytic subunit were exerted through the CRE, but residual stimulation was evident in promoter fragments containing only the TATA element. These data suggest that factors are bound to the CRE at constitutively high levels and that their capacity for transcriptional activation is regulated by phosphorylation.
...
PMID:Cyclic AMP-dependent protein kinase regulates transcription of the phosphoenolpyruvate carboxykinase gene but not binding of nuclear factors to the cyclic AMP regulatory element. 214 84
A cell-free system for the study of transcription from the promoter of the
phosphoenolpyruvate carboxykinase (GTP)
gene by using nuclear extracts from rat tissues was developed. The level of basal transcription from the
phosphoenolpyruvate carboxykinase
(
PEPCK
) promoter between -490 and +73 was highest when extracts from liver nuclei, rather than kidney, spleen, and HeLa nuclear extracts, were used. A series of 5' deletions and block mutations were also tested for their effects on basal transcription in vitro. The promoter truncated to -355 had the highest rate of basal transcription, while subsequent deletion to -277 markedly decreased the rate of transcription. Further deletion of the promoter to -134 resulted in a twofold increase in the basal level of transcription compared with that of the promoter deleted to -277. However, subsequent deletion of the NF-1-CCAAT-binding transcription factor binding site or the proximal cyclic AMP (cAMP) regulatory element caused a decrease in basal transcription. Block mutations were inserted into nine specific protein-binding regions of the
PEPCK
promoter previously shown to be of functional significance or to bind nuclear proteins. Mutation of the TATA box resulted in a 94% decrease in the level of transcription noted with the intact promoter, while sequence substitutions within the proximal cAMP regulatory element decreased the transcription rate to 25%. The addition of the catalytic subunit of
cAMP-dependent protein kinase
to the in vitro system stimulated transcription from the intact promoter or from a promoter deletion to -109. However, a promoter deletion to -68, which removes the proximal cAMP regulatory element, was unresponsive to added protein kinase catalytic subunit. These findings indicate that the
PEPCK
promoter between -490 and +73 contains sequences responsive to hormonal and tissue-specific factors in nuclei from rat tissues. The sensitivity of this in vitro transcription system closely mimics the process regulating
PEPCK
transcription in rat tissues and should make it ideal for testing the function of purified transcription factors.
...
PMID:In vitro analysis of promoter elements regulating transcription of the phosphoenolpyruvate carboxykinase (GTP) gene. 230 49
Cyclic AMP-stimulated mRNA levels in cultured rat hepatocytes were inhibited by three different inhibitors of
cAMP-dependent protein kinase
activity: (i) Rp-cAMPS, a cAMP analog with a sulfur substitution at the equatorial oxygen of the cyclic monophosphate; (ii) H8, an isoquinoline sulfonamide derivative; and (iii) PKI, a 20-amino acid synthetic peptide of the Walsh protein kinase inhibitor. These inhibitors specifically blocked the cAMP-stimulated increase in mRNA for tyrosine aminotransferase and
phosphoenolpyruvate carboxykinase
; they had no effect on the level of albumin mRNA which is not cAMP regulated. These results provide functional evidence that kinase activity involving protein phosphorylation is required in cAMP-mediated gene expression in mammalian cells.
...
PMID:Catalytic subunit of cAMP-dependent protein kinase is essential for cAMP-mediated mammalian gene expression. 283 Jan 34
Insulin is thought to influence some metabolic events by decreasing the intracellular concentration of cyclic AMP (cAMP). To test whether this explains the repression of hepatic
phosphoenolpyruvate carboxykinase
(
PEPCK
) by insulin we measured intracellular cAMP,
cAMP-dependent protein kinase
, mRNAPEPCK, and
PEPCK
gene transcription in cultured Reuber H4IIE hepatoma cells treated with forskolin with and without insulin. In untreated cells, the concentration of cAMP was 2.9 pmol/mg of protein. Forskolin at 1, 10, and 50 microM increased the level of cAMP to 9.2, 35.8, and 115 pmol/mg of protein, respectively; 5 nM insulin had no significant effect on these cAMP concentrations. In untreated cells, the activity ratio of
cAMP-dependent protein kinase
was 0.43, and 50 microM forskolin increased this to 0.96; insulin had no effect on this ratio at times from 15-180 min. In untreated cells mRNAPEPCK bound 15 cpm of a 32P-labeled cDNA probe per microgram of total cellular RNA. Forskolin, at 1, 10, and 50 microM increased this to 48, 96, and 115 cpm/microgram RNA. Insulin (5 nM), in combination with 0, 1, 10, and 50 microM forskolin, decreased the concentration of mRNAPEPCK to 5, 8, 23, and 29 cpm/micrograms RNA, respectively. Finally, the rate of transcription of the
PEPCK
gene was 85, 168, 630, 823, and 884 parts per million (ppm) in H4IIE cells treated for 30 min with 0, 1, 5, 10, and 50 microM forskolin, respectively, while the corresponding rates in the presence of 5 nM insulin were 49, 45, 84, 85, and 136 ppm.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Insulin decreases H4IIE cell PEPCK mRNA by a mechanism that does not involve cAMP. 300 46
Glucose-induced inactivation of the gluconeogenetic enzymes fructose-1,6-biphosphatase, cytoplasmic malate dehydrogenase and
phosphoenolpyruvate carboxykinase
was tested in yeast mutants defective in adenylate cyclase (cyr1 mutation) and in the cAMP-binding subunit of
cAMP-dependent protein kinase
(bcy 1 mutation). In the mutant AM7-11D (cyr1 mutation), glucose-induced cAMP overshoot was absent, and no significant inactivation of the gluconeogenetic enzymes was detected, thus supporting the role of cAMP in the process. Moreover, in the mutant AM9-8B (bcy1 mutation), no
cAMP-dependent protein kinase
activity was evidenced, and, in addition, a normal inactivation pattern was observed, thus indicating that other mechanisms evoked by glucose might be required in the process. In the double mutant AM7-11DR-4 (cyr1 bcy1 mutations), no inactivating effect was triggered by the sugar: this suggests that cAMP exerts some additional effect on the process, besides the activation of
cAMP-dependent protein kinase
. Furthermore, in AM7-11D, extracellular cAMP triggered about 50% of inactivation of fructose-1,6-bisphosphatase; this effect was largely reversed in acetate medium plus cycloheximide even after 150 min of incubation. However, an extensive and essentially irreversible inactivation was evidenced in the presence of glucose plus cAMP, whereas glucose alone was only slightly effective. Therefore, the reversible effect of cAMP, which probably corresponds to enzyme phosphorylation, seems to be required for the irreversible, probably proteolytic, glucose-stimulated inactivation of this enzyme. Cytoplasmic malate dehydrogenase and
phosphoenolpyruvate carboxykinase
in AM7-11D were also inactivated by cAMP, and much more by glucose plus cAMP, whereas glucose was practically ineffective. However, reversibility of the effect was not detected, and, in addition, no phosphorylation of
phosphoenolpyruvate carboxykinase
could be evidenced. Therefore, the sugar quite probably stimulates proteolysis of these enzymes, but the mechanism of cAMP in their degradation has still to be defined.
...
PMID:Studies on glucose-induced inactivation of gluconeogenetic enzymes in adenylate cyclase and cAMP-dependent protein kinase yeast mutants. 609 42
The influence of pH on the in vitro activity and regulatory properties of Sorghum leaf C4
phosphoenolpyruvate carboxylase
(
PEPC
) was investigated with respect to the phosphorylation status of the enzyme. In vitro protein phosphorylation was achieved using the catalytic subunit of a
cAMP-dependent protein kinase
(PKA) and a recombinant, immunopurified
PEPC
(0.9 mol of covalent Pi/mol
PEPC
subunit). Between pH 6.8 and 8, velocity and IC50 for L-malate increased for both the nonphosphorylated and the phosphorylated forms. With respect to the nonphosphorylated
PEPC
, the phospho-
PEPC
always gave high values for these kinetic parameters at the pH range investigated, especially between pH 7 and 7.3. The phosphorylation-induced stimulation of
PEPC
activity was four- to fivefold at pH 7.1 and approximately twofold at pH 7.3. The IC50 for L-malate showed a two- to threefold increase at pH 7.3, but varied less at pH 7.1 upon
PEPC
phosphorylation. Thus, phosphorylation of
PEPC
caused a predominant V effect or a mixed (V/IC50) effect at pH 7.1 or 7.3, respectively. This was also observed with the enzyme from desalted crude protein extracts from dark or light-adapted Sorghum leaves and leaf-derived mesophyll protoplasts illuminated in the presence of methylamine, a compound known to increase cytosolic pH (pHc). At pH 7.3, desensitization to L-malate of phospho-
PEPC
was due to an enhanced ability of PEP to compete with the inhibitor. The positive effector glucose-6P acted similarly to phosphorylation; however, a combination of both factors (glucose-6P and phosphorylation) led to a much larger increase in the IC50 for L-malate than that observed by a single factor.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:The effect of pH on the covalent and metabolic control of C4 phosphoenolpyruvate carboxylase from Sorghum leaf. 798 87
We report that the small tumor (small-t) antigen of simian virus 40 (SV40) forms complexes with nuclear protein phosphatase 2A (PP2A) and regulates the phosphorylation and transcriptional transactivation function of the cyclic AMP (cAMP)-regulatory element binding protein (CREB). PP2A coimmunoprecipitated with small t from nuclear extracts from HepG2 cells expressing small t or from rat liver nuclear extracts to which recombinant small t was added. Protein phosphatase 1 was not detected in small-t immunoprecipitates. In HepG2 cells expressing small t, dibutyryl-cAMP (Bt2cAMP) stimulated the phosphorylation of CREB 65-fold, whereas CREB phosphorylation was stimulated only 5- to 8-fold by Bt2cAMP in cells not expressing small t. Small t also inhibited the dephosphorylation of
cAMP-dependent protein kinase
(PKA)-phosphorylated CREB in rat liver nuclear extracts. In cells expressing small t, Bt2cAMP-stimulated transcription from the
phosphoenolpyruvate carboxykinase
(
PEPCK
) gene promoter was enhanced over the level of transcription from the
PEPCK
promoter in cells not expressing small t. Small t also enhanced Bt2cAMP-stimulated transcription from a Gal4-responsive promoter in cells expressing a chimeric protein containing the Gal4 DNA-binding domain linked to the CREB transactivation domain. However, small t did not stimulate transcription either from a 5' deletion mutant of the
PEPCK
promoter that is not able to bind CREB or from the Gal4-responsive promoter in the absence of the Gal4-CREB protein. These data suggest that small t enhances Bt2cAMP-stimulated gene transcription by inhibiting the dephosphorylation of PKA-phosphorylated CREB by nuclear PP2A. These findings support previous observations that nuclear PP2A is the primary phosphatase that dephosphorylates PKA-phosphorylated CREB.
...
PMID:Simian virus 40 small tumor antigen inhibits dephosphorylation of protein kinase A-phosphorylated CREB and regulates CREB transcriptional stimulation. 806 21
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.
...
PMID:Partial purification and characterization of phosphoenolpyruvate carboxylase protein-serine kinase from illuminated maize leaves. 834 24
In cultured rat hepatocytes the degradation of
phosphoenolpyruvate carboxykinase
mRNA might be regulated by protein(s), which by binding to the mRNA alter its stability. The 3'-untranslated region of
phosphoenolpyruvate carboxykinase
mRNA as a potential target was used to select RNA-binding protein(s) from rat liver by the use of gel retardation assays. A cytosolic protein was isolated, which bound to the
phosphoenolpyruvate carboxykinase
mRNA 3'-untranslated region and other in vitro synthesized RNAs. The protein was purified to homogeneity; it had an apparent molecular mass of 400 kDa and consisted of identical subunits with an apparent size of 24.5 kDa. Sequence analysis of a tryptic peptide from the 24.5-kDa protein revealed its identity with rat ferritin light chain. Binding of ferritin to RNA was abolished after phosphorylation with
cAMP-dependent protein kinase
and was augmented after dephosphorylation with alkaline phosphatase. Weak binding was observed in extracts from okadaic acid-treated cultured hepatocytes compared with untreated cells. Preincubation of ferritin with an anti-phosphoserine or an anti-phosphothreonine antibody attenuated binding to RNA, while an anti-phosphotyrosine antibody generated a supershift indicating that phosphoserine and phosphothreonine but not phosphotyrosine residues were in close proximity to the RNA-binding region. Ferritin is the iron storage protein in the liver. Binding of ferritin to RNA was diminished in the presence of increasing iron concentrations, whereas the iron chelator desferal was without effect. It is concluded that ferritin might function as RNA-binding protein and that it may have important functions in the general regulation of cellular RNA metabolism.
...
PMID:Purification of a RNA-binding protein from rat liver. Identification as ferritin L chain and determination of the RNA/protein binding characteristics. 924
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