EC:2.3.1.28 - FACTA Search

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Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The rate of transcription of the hepatic phosphoenolpyruvate carboxykinase (PEPCK) and insulin-like growth factor-binding protein 1 (IGFBP-1) genes is stimulated by glucocorticoids and inhibited by insulin. In both cases, the effect of insulin is dominant, since it suppresses both basal and glucocorticoid-stimulated PEPCK or IGFBP-1 gene transcription. Analyses of both promoters by transfection of PEPCK or IGFBP-1-chloramphenicol acetyltransferase fusion genes into rat hepatoma cells has led to the identification of insulin response sequences (IRSs) in both genes. The core IRS, T(G/A)TTTTG, is the same in both genes, but the PEPCK promoter has a single copy of this element whereas the IGFBP-1 promoter has two copies arranged as an inverted palindrome. The IGFBP-1 IRS and PEPCK IRS both bind the alpha and beta forms of hepatic nuclear factor 3 (HNF-3), although the latter does so with a sixfold-lower relative affinity. Both the PEPCK and the IGFBP-1 IRSs also function as accessory factor binding sites required for the full induction of gene transcription by glucocorticoids. A combination of transient transfection and DNA binding studies suggests that HNF-3 is the accessory factor that supports glucocorticoid-induced gene transcription. In both genes, the HNF-3 binding site overlaps the IRS core motif(s). A model in which insulin is postulated to mediate its negative effect on glucocorticoid-induced PEPCK and IGFBP-1 gene transcription indirectly by inhibiting HNF-3 action is proposed.
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PMID:Hepatic nuclear factor 3- and hormone-regulated expression of the phosphoenolpyruvate carboxykinase and insulin-like growth factor-binding protein 1 genes. 753 83

The enzyme phosphoenolpyruvate carboxykinase (PEPCK) plays a key role in gluconeogenesis in liver and in glyceroneogenesis in adipose tissue. These processes, and PEPCK, are regulated by a number of hormones, some of which have different effects on the enzyme in liver and adipose tissue. To explore this phenomenon, PEPCK gene expression was studied in 3T3-F442A adipocytes maintained in a serum-free medium. The beta-adrenergic agonist isoprenaline (isoproterenol) and a cyclic AMP analogue (8-CPT-cAMP) increased PEPCK mRNA. A maximal 3-fold induction occurred in 2 h. Dexamethasone decreased PEPCK mRNA by 80% in 4 h. Dexamethasone also counteracted the inductive effects of isoprenaline and 8-CPT-cAMP. Run-on transcription experiments showed that the isoprenaline and dexamethasone actions were, at least in part, exerted at the level of PEPCK gene transcription. These effects were further analysed by using transient and stable transfection of adipocytes with a plasmid containing bp -2100 to 69 of the PEPCK gene promoter fused to the chloramphenicol acetyltransferase (CAT) gene. In such cells isoprenaline stimulated CAT expression, an effect that was prevented if the cells were also exposed to dexamethasone.
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PMID:Expression of the phosphoenolpyruvate carboxykinase gene in 3T3-F442A adipose cells: opposite effects of dexamethasone and isoprenaline on transcription. 782 55

Previous studies have shown that the adipose tissue of young genetically obese Zucker rats was characterized by a coordinate overtranscription of lipogenic genes, suggesting that the fa mutation triggers transcription factor(s) acting in common on the promoters of these genes. To test this hypothesis, we developed a system of transient transfection of rat adipocytes with constructs containing glyceraldehyde-3-phosphate dehydrogenase (GAPDH) and fatty acid synthetase (FAS) promoters fused to gene reporter CAT. Those transfected cells expressed high levels of promoter-driven chloramphenicol acetyltransferase (CAT) activity through correctly initiated transcription as shown by primer extension analysis. Using this system we found a direct effect of insulin on GAPDH and FAS gene expression in rat adipocytes. In transfected adipocytes from obese compared to lean rats, activity of GAPDH and FAS promoters fused to CAT, was 2.6- and 8-fold increased, respectively. In contrast when reporter gene activity was driven by either phosphoenolpyruvate carboxykinase or beta-actin promoter, no difference could be observed between lean and obese, pointing out the promoter specificity of genotype effect. 5' deletion analysis of GAPDH promoter allowed us to narrow down the fa responsive region to nucleotide -488-329. As assessed by gel retardation and DNase I footprinting analysis, adipocyte nuclear protein interactions to this 159-bp fragment were found to be identical and to footprint the same 20-bp sequence. This study pointed out that overexpression of GAPDH and FAS genes in adipose tissue of genetically obese rats relies on promoter activation, through a 159-bp cis-acting region within the GAPDH promoter. The effects of the fa mutation on trans-acting factors binding to this region remain to be identified.
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PMID:Evidence of increased glyceraldehyde-3-phosphate dehydrogenase and fatty acid synthetase promoter activities in transiently transfected adipocytes from genetically obese rats. 783 67

To study the transcriptional regulation of the liver gluconeogenic phenotype, the underdifferentiated mouse Hepa-1c1c7 (Hepa) hepatoma cell line was used. These cells mimicked the fetal liver by appreciably expressing the alpha-fetoprotein and albumin genes but not the phosphoenolpyruvate carboxykinase (PEPCK) gene. Unlike the fetal liver, however, Hepa cells failed to express the early-expressed factors hepatocyte nuclear factor 1 alpha (HNF-1 alpha) and HNF-4 and the late-expressed factor C/EBP alpha, thereby providing a suitable system for examining possible cooperation between these factors in the transcriptional regulation of the PEPCK gene. Transient transfection assays of a chimeric PEPCK-chloramphenicol acetyltransferase construct showed a residual PEPCK promoter activity in the Hepa cell line, which was slightly stimulated by cotransfection with a single transcription factor from either the C/EBP family or HNF-1 alpha but not at all affected by cotransfection of HNF-4. In contrast, cotransfection of the PEPCK construct with members from the C/EBP family plus HNF-1 alpha resulted in a synergistic stimulation of the PEPCK promoter activity. This synergistic effect depended on the presence in the PEPCK promoter region of the HNF-1 recognition sequence and on the presence of two C/EBP recognition sequences. The results demonstrate a requirement for coexistence and cooperation between early and late liver-enriched transcription factors in the transcriptional regulation of the PEPCK gene. In addition, the results suggest redundancy between members of the C/EBP family of transcription factors in the regulation of PEPCK gene expression.
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PMID:Transcriptional regulation of the phosphoenolpyruvate carboxykinase gene by cooperation between hepatic nuclear factors. 793 27

Many hormones regulate the rate of synthesis of phosphoenolpyruvate carboxykinase (PEPCK), the enzyme that governs the rate-limiting step in gluconeogenesis. In H4IIE rat hepatoma cells, glucocorticoids, retinoic acid and cyclic AMP (cAMP) increase PEPCK gene transcription whereas insulin and phorbol esters have the opposite effect. Insulin and phorbol esters are dominant as they prevent cAMP- and glucocorticoid-stimulated PEPCK gene transcription. In contrast, insulin and phorbol esters both stimulate transcription of gene 33 in the same H4IIE cells, with the same time course as seen for their inhibitory effect on PEPCK gene transcription. We now report that the protein phosphatase inhibitor, okadaic acid, mimics the action of insulin and phorbol esters on expression of both gene 33 and PEPCK gene in H4IIE cells. Okadaic acid stimulates gene 33 mRNA accumulation whereas it inhibits cAMP- and glucocorticoid-stimulated PEPCK mRNA accumulation. The effect of okadaic acid on the PEPCK gene is mediated through the PEPCK promoter as, in a cell line, HL1C, stably transfected with a PEPCK-chloramphenicol acetyltransferase (CAT) fusion gene, okadaic acid inhibits cAMP- and glucocorticoid-stimulated CAT expression. Desensitization of the protein kinase C pathway by exposure to phorbol 12-myristate 13-acetate for 16 h abolishes the subsequent action of the phorbol ester but does not markedly affect the inhibition of cAMP- and glucocorticoid-stimulated CAT expression by insulin or okadaic acid. Even though insulin and okadaic acid appear to repress PEPCK gene expression through a pathway initially distinct from that used by phorbol esters, transient-transfection studies show that the final target of the action of okadaic acid, insulin and phorbol ester is the same DNA element.
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PMID:Comparison of the effects of insulin and okadaic acid on phosphoenolpyruvate carboxykinase gene expression. 798 Apr 40

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

Cytosolic phosphoenolpyruvate carboxykinase (PEPCK) plays a critical role in adipose tissue glyceroneogenesis. We have previously shown that transcription of the PEPCK gene was stimulated by isoprenaline and retinoic acid in 3T3-F442A adipocytes. We also showed that oleate increased PEPCK mRNA. Here, we analysed the effect that fatty acids of various chain lengths and unsaturation degrees exerted on PEPCK gene expression in 3T3-F442A adipocytes. When maintained in serum-free, glucose-free medium, differentiated cells responded to unsaturated long-chain fatty acids by a large increase in PEPCK mRNA whereas saturated fatty acids were inefficient. A maximum fivefold stimulation by oleate was attained at 4 h of treatment with 1 mM fatty acid bound to albumin in a 6:1 ratio. The poly-unsaturated very long-chain fatty acid all-cis-4,7,10,13,16,19-docosahexaenoic acid (C22:6) was even more potent and produced a tenfold increase. The expression of the genes encoding glycerol-3-phosphate dehydrogenase, hormone-sensitive lipase or actin remained unaffected by oleate exposure. A 4-h treatment by the hypolipidemic drug clofibrate, 0.5-2 mM, also produced a large (3-9-fold) increase in PEPCK mRNA. When used at non-saturating concentrations, oleate and clofibrate acted in an additive manner. At maximally effective concentrations, additivity was lost, suggesting that fatty acids and fibrates might act through similar mechanisms. Nuclear transcription experiments showed that oleate and clofibrate stimulated the transcription rate of the gene. 3T3-F442A cells were stably transfected with a plasmid containing the base pairs -2100 to +69 of the PEPCK gene promoter fused to the chloramphenicol acetyltransferase gene. These differentiated stable transfectants responded to oleate and clofibrate by a specific increase in chloramphenicol acetyltransferase activity. Adipocytes express various isoforms of peroxisome-proliferator-activated receptors that can be activated by fibrates and fatty acids. Potential recognition sequences for peroxisome-proliferator-activated receptors are present in the -2100 to +69 fragment of the PEPCK gene promoter. Thus, this gene represents an ideal molecular target for understanding the complex transcriptional control exerted by fatty acids and peroxisome proliferators.
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PMID:Fatty acids and fibrates are potent inducers of transcription of the phosphenolpyruvate carboxykinase gene in adipocytes. 853 80

Efficient transfer of genes maintaining a correct hormonal control in transfected cells is the prerequisite for gene regulation studies and for gene therapy. Differentiated cells, like adipocytes or hepatocytes, are difficult to transfect. In an attempt to improve gene transfer, we first transiently transfected cultured 3T3-F442A adipocytes with a construct containing the simian virus 40 (SV40) promoter fused to the chloramphenicol acetyltransferase (CAT) gene (pSV2-CAT), using various cationic liposomes. Among these, only lipofectAMINE was five times more efficient than the standard calcium phosphate procedure. To further augment efficiency, we transfected 3T3-F442A adipocytes and FAO hepatoma cells with the lipofectAMINE/pSV2-CAT complex in the presence of replication-deficient recombinant type-5 adenovirus at 200 pfu/cell. CAT activity of transiently transfected cells was increased about 50-fold when compared to the calcium phosphate procedure. To determine whether this methodology would be useful for obtaining stable transfectants and would not interfere with correct gene regulation, we used a construct containing -2100 to +69 bp of the phosphoenolpyruvate carboxykinase gene fused to the CAT gene (pPL1-CAT). This construct was shown previously to be cAMP-responsive after calcium-phosphate-mediated transfection of adipocytes and hepatoma cells. 3T3-F442A or FAO cells in which pPL1-CAT was either transiently or stably transferred by lipofectAMINE and adenovirus responded to isoproterenol or cAMP, respectively, with a 2-3-fold increase in CAT activity. Therefore the association of liposomes and adenovirus is an efficient method for transient or stable transfer of regulated genes in adipocytes and hepatoma cells.
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PMID:Efficient transfer of regulated genes in adipocytes and hepatoma cells by the combination of liposomes and replication-deficient adenovirus. 864 10

The onset of metabolic acidosis causes an increased transcription of the renal phosphoenolpyruvate carboxykinase (PCK) gene. When transgenic mice carrying a bovine growth hormone (bGH) gene driven by the -460 to +73 segment of the PCK promoter were made chronically acidotic, the bGH mRNA was increased twofold after 4 days. Confluent and well-differentiated cultures of LLC-PK1-F+ cells exhibit a 2.5-fold increase in PCK mRNA when transferred to acidic media (pH 6.9, 10 mM HCO3-) for 16 h. Confluent cultures transfected with PCK-490 CAT exhibit an increase (3.5-fold) in chloramphenicol acetyltransferase (CAT) activity when shifted to acidic medium for 48 h. Mutation or deletion of the P2 element causes a four- to fivefold decrease in basal CAT activity but does not affect the pH response. In contrast, mutations of the P3(II) element or the CRE-1 cAMP-response element have little effect on basal activity but cause a 50% decrease in the pH response. Other deletions or mutations have little effect on either activity. Thus changes in the activity or levels of the protein(s) in the renal proximal tubule that binds to the P3(II) and CRE-1 elements may mediate increased transcription of the PCK gene during metabolic acidosis.
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PMID:Promoter elements that mediate the pH response of PCK mRNA in LLC-PK1-F+ cells. 877 Jan 65

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