Gene/Protein Disease Symptom Drug Enzyme Compound
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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 effects of okadaic acid (OA), a protein phosphatase inhibitor, on transcriptional enhancement activity of rat glucocorticoid receptor (GR) were examined in transiently transfected cells. In the absence of hormone, GRs expressed in CV-1 and COS-1 fibroblasts were capable of enhancing transcription from cotransfected chloramphenicol acetyltransferase reporter plasmids in response to OA treatment. Synergistic enhancement resulted from combined hormone and OA treatment. The effects of OA on GR-mediated enhancement required the presence of linked glucocorticoid response elements and were observed with reporter plasmids that contained different promoters and glucocorticoid response elements. Since OA did not affect nuclear translocation of the receptor, enhancement mediated by unliganded GR was most likely accounted for by the accumulation of some unliganded GRs within nuclei of transfected CV-1 and COS-1 cells. Deletion of individual GR transactivation domains and point mutations within DNA- and hormone-binding domains severely reduced the response of receptors to OA, although some mutant receptors retained the capacity to elicit a synergistic response when exposed to OA and hormone. The effects of OA on transcriptional enhancement did not appear to correlate with major changes in GR phosphorylation, as visualized by two-dimensional tryptic mapping of in vivo 32P-labeled GRs. Thus, phosphorylation of various components of the GR signal transduction pathway, and not necessarily the receptor itself, may influence its transcriptional enhancement activity.
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PMID:Effects of okadaic acid, a protein phosphatase inhibitor, on glucocorticoid receptor-mediated enhancement. 131 Jul 97

At least two genes encode isoenzymes of rat 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase. Alternative splicing of one of these genes generates a skeletal muscle-specific transcript from an upstream promoter and a liver-specific transcript from a downstream promoter. A potent glucocorticoid response element was identified in the first intron of the gene, i.e. between liver exon I and exon II. The element is approximately 3.5 kilobase pairs (kb) downstream of the liver isoenzyme transcription start site and 13 kb upstream of exon II of the gene and confers dexamethasone-sensitive expression of chloramphenicol acetyltransferase (CAT) activity from a heterologous thymidine kinase promoter and from both homologous 5'-flanking regions of the gene. This glucocorticoid response element also exhibits androgen- but not estrogen-sensitive expression of CAT activity in HeLa cells cotransfected with the appropriate receptor expression vector. DNase footprint and sequence analysis revealed that the element is comprised minimally of two adjacent 15-mer glucocorticoid receptor dimer binding sites situated in opposite orientations. Glucocortcoid regulation of 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase gene expression in liver and skeletal muscle is mediated by a single complex glucocorticoid response element located in the first intron of the skeletal muscle/liver gene.
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PMID:Regulation of gene expression of rat skeletal muscle/liver 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase. Isolation and characterization of a glucocorticoid response element in the first intron of the gene. 133 34

The glucocorticoid receptor is a member of the steroid and thyroid hormone receptor superfamily and acts as a ligand-activated transcription factor. To reconstitute the molecular mechanisms underlying the cellular response to soluble receptor ligands, we have exploited a cell-free system that exhibits glucocorticoid-induced activation of the latent cytosolic glucocorticoid receptor to an active DNA-binding species. We demonstrate here that cytosol from a rat hepatoma cell, M1.19, contains glucocorticoid receptor-specific immunoreactivities and target DNA-binding activities. Moreover, specific DNA-binding activities of M1.19 cytosol were dose-dependently induced by dexamethasone treatment, and linearly correlated with the hormonal induction of chloramphenicol acetyltransferase activity at the corresponding concentrations. These results indicate that the cytosolic glucocorticoid receptor could be converted in a DNA-binding form under cell-free conditions and the ligand appears to play a crucial role in the direct control of the level of functional activity of a given ligand-receptor complex.
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PMID:In vitro monitoring activation by the ligands and specific DNA-binding of the glucocorticoid receptors. 147 88

The effect of glucocorticoids on the regulation of stably transfected human glucocorticoid receptors has been examined. Exposure of a Chinese hamster ovary-derived cell line containing stably transfected human glucocorticoid receptor genes and glucocorticoid-responsive dihydrofolate reductase genes to 5 nM dexamethasone resulted in a rapid, time-dependent reduction in the level of glucocorticoid receptor protein to 50% of control levels within 5 h of steroid treatment. This decrease in receptor protein was persistent, with a maximal 70% reduction observed even after 4 weeks of dexamethasone treatment. Immunocytochemical analysis of the influence of dexamethasone on stably transfected glucocorticoid receptors revealed efficient translocation of receptors to the nucleus within 1 h of hormone treatment. However, upon longer exposure to dexamethasone (5 h), immunoreactive glucocorticoid receptors were localized primarily to the cytoplasm. By 24 h of treatment, glucocorticoid receptors were absent from the cytoplasm and the nucleus, suggesting that the ligand-induced loss of glucocorticoid receptors may be a cytoplasmic event. The decrease in transfected glucocorticoid receptor protein was largely reflected by similar changes in steady state levels of human glucocorticoid receptor mRNA; however, the effects of hormone on receptor protein levels were more profound than on receptor mRNA. There was an initial rapid reduction in transfected glucocorticoid receptor mRNA to 50% of control levels within 2 h of dexamethasone treatment. This reduction was followed by a transient rise in mRNA expression after 12 h of hormone treatment. With prolonged exposure to dexamethasone (> 12 h) a second, more gradual decline in human glucocorticoid receptor mRNA was observed. This biphasic pattern of glucocorticoid receptor gene expression was not reflected at the level of receptor protein, suggesting that both transcriptional and translational control mechanisms may be involved in ligand-dependent receptor regulation. When cells were removed from dexamethasone after up to 48 h of treatment, glucocorticoid receptor mRNA levels fully recovered within 12 h. Receptor protein recovered only partially during this same time period. Down-regulation of glucocorticoid receptor protein and mRNA levels by dexamethasone in stably transfected cells led to corresponding reductions in the hormone sensitivity to two glucocorticoid-regulated genes: a transiently transfected chloramphenicol acetyltransferase receptor gene and a stably integrated dihydrofolate reductase gene. These results demonstrate that stably transfected human glucocorticoid receptors are subject to ligand-induced down-regulation in a heterologous cell line. Moreover, glucocorticoid receptor autoregulation appears to be a highly conserved mechanism for attenuating cellular responsiveness to hormone.
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PMID:Ligand-dependent down-regulation of stably transfected human glucocorticoid receptors is associated with the loss of functional glucocorticoid responsiveness. 149 90

Transcription of the gene coding for serine dehydratase (SDH, EC 4.2.1.13) in the rat in vivo is dramatically increased by glucocorticoid hormones. To identify DNA elements mediating the glucocorticoid-regulated expression of the SDH gene, we transiently transfected 7AD-7 rat hepatoma cells with fusion genes consisting of various regions of the SDH 5' flanking sequence linked to the coding sequence of the gene for chloramphenicol acetyltransferase (CAT). Analysis of the CAT activities from these 5' deletion mutants identified three closely associated glucocorticoid-responsive elements (GREs), located more than 5 kb upstream relative to the cap site. Two distal GREs act synergistically to confer strong glucocorticoid inducibility to the gene, whereas the proximal GRE functions independently of the distal GREs and confers only a weak hormone response to the gene. The purified DNA-binding domain of rat glucocorticoid receptor binds to the sequence of each GRE as shown by footprinting experiments. However, only one of these sequences contains the TGTTCT consensus sequence reportedly associated with many other GREs.
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PMID:Location and characterization of multiple glucocorticoid-responsive elements in the rat serine dehydratase gene. 149 43

We have tested the hypothesis that antidepressants affect the expression of the glucocorticoid receptor gene, by looking at glucocorticoid receptor gene promoter activity, glucocorticoid receptor mRNA levels, and glucocorticoid-binding activity after treatment of different cell lines with desipramine. Treatment of LTK- cells or Neuro 2A cells with desipramine produced a 50-200% increase in chloramphenicol acetyltransferase activity transcribed from a 2.7-kilobase glucocorticoid receptor gene promoter region. In cell lines derived from both neuronal and non-neuronal sources, glucocorticoid receptor mRNA concentration doubled after desipramine treatment, and this was associated with a 2-fold higher functional glucocorticoid binding capacity and increased glucocorticoid sensitivity, as measured with the reporter plasmid pMMTVCAT. Antidepressant-induced increases in glucocorticoid receptor gene promoter activity, glucocorticoid receptor mRNA levels, and functional glucocorticoid binding activity suggest a novel mechanism of action for these drugs on the hypothalamic-pituitary-adrenal axis.
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PMID:Increased glucocorticoid receptor gene promoter activity after antidepressant treatment. 161 6

The human gene for the recently identified 5-lipoxy-genase-activating protein (FLAP) has been cloned. The gene was isolated from two different genomic libraries and is contained within four overlapping bacteriophage clones. The gene spans greater than 31 kilobases and consists of five small exons and four large introns. Southern blot analysis of human genomic DNA suggests the presence of a single FLAP gene per haploid genome. A restriction site polymorphism was identified in intron II of the gene. This restriction fragment length polymorphism appears to be present in the normal population at a fairly high frequency. The transcription initiation site was located, at an adenine residue, 74 base pairs upstream of the ATG initiation codon. Examination of the sequence of the gene 5' to the mRNA start site revealed the presence of a possible TATA box (TGTAAT) 22 base pairs upstream and potential AP-2 and glucocorticoid receptor binding sites. Functional analysis of the FLAP gene promoter was assayed by transient transfection of mouse P388D1 cells (macrophage) and human HepG2 cells (hepatoma) with 5'-flanking sequences of the FLAP gene fused upstream of the chloramphenicol acetyltransferase reporter gene. Expression in the mouse macrophage cell line of the various FLAP gene promoter constructs revealed both tissue specificity and enhancer-like activities whereas in the hepatoma cell line only a minimum level of activity was obtained.
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PMID:Gene characterization and promoter analysis of the human 5-lipoxygenase-activating protein (FLAP). 167 82

The cis-acting element mediating glucocorticoid inducibility of the chicken glutamine synthetase gene has been identified. Transfection studies using intact embryonic chicken retinae and L6 myoblasts demonstrate that sequences located between 1,849 and 2,120 nucleotides upstream of the glutamine synthetase transcription start site are required to achieve hormonally inducible expression of the chloramphenicol acetyltransferase gene. Moreover, a 42-nucleotide fragment from this region provides a robust hormonal induction when positioned approximately 2 kilobases from the SV40 early promoter. A sequence containing 8 nucleotides in common with the 12-nucleotide consensus glucocorticoid response element is encoded within this element. DNase I footprinting experiments confirm that this consensus sequence provides the only binding sites for the glucocorticoid receptor within the DNA required for inducibility. Removal of 8 nucleotides that map outside of the footprinting region results in attenuation of the hormonal response in L6 myoblasts and abolition of the response in embryonic retinae. This deletion eliminates the sequence 5'CAGCGTCA3', a sequence that resembles the canonical cyclic AMP response element (CRE), activating transcription factor (ATF), and AP1 binding sites. These results suggest that the glucocorticoid receptor acts in collaboration with a member of the jun/fos/ATF/CREB family of transcription factors to mediate a strong glucocorticoid induction at a site 2.1 kilobases upstream of the glutamine synthetase transcription start site.
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PMID:A single upstream glucocorticoid response element juxtaposed to an AP1/ATF/CRE-like site renders the chicken glutamine synthetase gene hormonally inducible in transfected retina. 168 91

The whey acidic protein (WAP) is a major milk protein. It is abundantly expressed in mammary epithelial cells, and its gene is controlled by lactogenic hormones. The identification of regulatory cis-acting sequences of the mouse WAP gene was so far dependent on the analysis of transgenic animals. We report here the possibility of analyzing regulatory sequences by gene transfer experiments using the lactogenic hormone-dependent mammary epithelial cell line HC11. A WAP-chloramphenicol acetyltransferase construct containing 2.5 kilobases of the 5'-flanking sequence of the WAP gene was stably transfected into HC11 cells. High chloramphenicol acetyltransferase activity was induced in pools of transfected cells cultured in the presence of the lactogenic hormones glucocorticoid, PRL, and insulin. A lower induction was observed by glucocorticoid hormone alone. PRL by itself was not able to induce the WAP gene promoter above the level observed in the absence of lactogenic hormones. A time course of hormone induction showed a weak initial response with a steady increase over at least 4 days of hormone treatment. Induction was not observable in the mammary epithelial cell line NOG-8 and NIH3T3 fibroblasts, despite the presence of functional glucocorticoid receptor in these cells. This indicates the requirement for a cell type-specific transcription factor present in the mammary epithelial cell line HC11, but not in NOG-8 epithelial cells or NIH3T3 fibroblasts.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lactogenic hormone and cell type-specific control of the whey acidic protein gene promoter in transfected mouse cells. 168 65

Glucocorticoid receptors are ligand-dependent transcription factors that are subject to down-regulation by their cognate ligand; however, the mechanisms mediating this physiological response are not completely understood. Since analysis of the human glucocorticoid receptor (hGR) cDNA sequence revealed the presence of sequences with homology to both positive and negative glucocorticoid regulatory elements, we have examined the potential of hGR to bind to the hGR cDNA by Southwestern blot analysis. The data revealed that glucocorticoid receptors exhibited specific binding to their own cDNA. To determine whether this binding was of functional significance in the down-regulation of glucocorticoid receptors, we analyzed the effect of glucocorticoids on hGR protein levels from COS 1 cells transfected with an hGR cDNA expression vector. These transfected cells produced intact hGR that were capable of ligand-dependent regulation of a co-transfected glucocorticoid-responsive reporter gene. Glucocorticoid treatment of hGR-transfected cells resulted in down-regulation of hGR (assayed by both glucocorticoid binding capacity and hGR protein levels) within 24 h of steroid administration. To determine if the glucocorticoid-induced down-regulation of transfected hGR was compatible with effects at the levels of receptor gene expression and RNA stability, we examined hGR mRNA steady state levels. Reductions from 2- to 6-fold were observed in hGR mRNA levels following glucocorticoid treatment of transfected COS 1 cells. This down-regulation of transfected hGR mRNA could not be attributed to either the Rous sarcoma virus promoter, which drives hGR expression, or to other sequences present in the vector plasmid since transcription of a related plasmid containing a chloramphenicol acetyltransferase gene in place of the hGR cDNA was not regulated by glucocorticoids. Down-regulation of hGR mRNA by glucocorticoids in transfected cells occurred in a time- and dose-dependent manner that is consistent with a glucocorticoid receptor-mediated process. Glucocorticoid-induced down-regulation of hGR mRNa steady state levels was not observed in COS 1 cells transfected with cDNAs encoding mutant hGR (defective in either steroid or DNA binding), which indicates that functional steroid and DNA binding domains of the expressed hGR were required for down-regulation. Interestingly, treatment of transfected COS 1 cells with the glucocorticoid antagonist RU486 also resulted in down-regulation of transfected hGR mRNA. Deletion analysis revealed that the region of the hGR cDNA that was responsible in part for the observed down-regulation in response to glucocorticoid was contained within a 1-kilobase restriction fragment (from base pair +527 to +1526).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Human glucocorticoid receptor cDNA contains sequences sufficient for receptor down-regulation. 169 20


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