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)

Dexamethasone treatment of the Jurkat T77 cell clone inhibited the enhancing effect of 12-O-tetradecanoylporbol-13-acetate (TPA) and the calcium ionophore A23187 on the interleukin 2 (IL2) mRNA levels and gene transcription from intact nuclei. Dexamethasone treatment of Jurkat T77 cells inhibited the TPA/A23187-dependent activation of the transcription from the transfected pIL2CAT, containing 600 base pairs of the genomic sequences upstream of the coding region of IL2 gene, including the TPA/calcium responsive cis-regulatory elements and promoter sequences, driving the expression of the chloramphenicol acetyltransferase (CAT) gene. Transfection of either Jurkat T77 cell clone or glucocorticoid-resistant Jurkat cells with a human glucocorticoid receptor cDNA under the transcriptional control of the Rous sarcoma virus long terminal repeat (LTR) (pRShGR alpha) significantly increased or induced, respectively, the dexamethasone-mediated inhibition of the TPA/A23187-dependent expression of pIL2-CAT as well as the enhancing effect on the expression of the cotransfected CAT gene under the control of the mouse mammary tumor virus LTR, as a marker of glucocorticoid receptor action. This suggests a role for the glucocorticoid receptor in mediating the dexamethasone action on IL2 gene expression. To study the cis-regulatory sequence specificity of the dexamethasone-induced interference with the TPA/A23187-mediated T cell activating signals, we studied the effect of the hormone on the regulatory elements contained in the Rous sarcoma virus and human T lymphotropic virus 1 long terminal repeats and the SV40 promoter, which are known to be transcriptionally enhanced by those activating agents. Dexamethasone was unable to interfere with the TPA/A23187-mediated enhancement of these cis-regulatory elements, suggesting that the hormone effect is specific for IL-2 gene sequences. Our data suggest that the dexamethasone-mediated transcriptional inhibition of the IL2 gene is mediated by an interference with the protein kinase C and calcium-mediated trans-activation of the antigen-responsive and T cell-specific elements lying in the 5'-flanking region of the gene.
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PMID:Transcriptional regulation of the interleukin 2 gene by glucocorticoid hormones. Role of steroid receptor and antigen-responsive 5'-flanking sequences. 215 67

Transcription of the beta-casein milk protein gene in the HC11 mouse mammary epithelial cell line is induced synergistically by the hormones glucocorticoid and PRL. Sequential treatment of HC11 cells with glucocorticoid and PRL demonstrated that the two hormones had different modes of action on beta-casein transcription. Pretreatment with dexamethasone enhanced the response to subsequent induction by PRL, but not vice versa. Dexamethasone increased the sensitivity of the cells to respond to PRL. The increase in sensitivity was slow, extended for 16 days, and could be rapidly reversed by withdrawal of dexamethasone. The dexamethasone-induced sensitivity for the rapid transcriptional regulation by PRL could be observed with transfected rat beta-casein promoter-chloramphenicol acetyltransferase constructs retaining only 175 basepairs upstream from the transcription initiation site. Expression of the endogenous mouse beta-casein gene was regulated identically to that of the promoter constructs with respect to the synergy of the hormones and their different kinetics of action. In contrast to the slow induction of sensitivity toward PRL, dexamethasone rapidly induced the transcription of a mouse mammary tumor virus long terminal repeat controlled gene in HC11. This demonstrated a normal transcriptional activation of the glucocorticoid receptor in this cell line. Thus, glucocorticoid may regulate beta-casein gene transcription indirectly, inducing or repressing other glucocorticoid-regulated genes, whereas the interaction of PRL with its receptor causes a rapid induction of the beta-casein gene promoter.
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PMID:Prolactin and glucocorticoid hormones control transcription of the beta-casein gene by kinetically distinct mechanisms. 217 95

The 5'-flanking region of the human gene encoding beta-alcohol dehydrogenase (ADH2) was shown by DNase I footprinting to contain three tandem binding sites for purified glucocorticoid receptor. The three binding sites lie very close together between nucleotide (nt) positions -245 and -171 with respect to the transcription start point. DNase I footprinting using a rat liver nuclear extract indicated a lack of protection of the glucocorticoid receptor binding sites, but protection of a sequence between nt -209 and -191 which partially overlaps the glucocorticoid receptor binding sites I and II. This site has homology with the known binding site for hepatocyte nuclear factor 1 (HNF1). ADH2 promoter DNA fragments containing various lengths of 5'-flanking sequences were fused upstream from the gene encoding chloramphenicol acetyltransferase (cat) and transfected into the HepG2 human hepatoma cell line. The resulting cat expression was subject to induction by dexamethasone in constructions containing ADH2 DNA between nt -272 and -171. This indicates that the glucocorticoid receptor binding sites identified by footprint analysis function as a glucocorticoid response element (GRE) in a liver cell line. Heterologous ADH-cat fusions, in which the ADH2-GRE was fused to the adenovirus major late promoter, exhibited glucocorticoid induction of cat expression in CV-1B cells when cotransfected with a glucocorticoid receptor expression vector. Glucocorticoid regulation in CV-1B was observed when either all three glucocorticoid receptor binding sites (sites 0, I, II) or the two distal sites (sites 0, I) were present. Overall, these results indicate that the ADH2 gene possesses a functional GRE which can potentially regulate expression transcriptionally.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A hormone response element upstream from the human alcohol dehydrogenase gene ADH2 consists of three tandem glucocorticoid receptor binding sites. 221 Mar 83

Hepatic expression of the beta-galactoside alpha 2,6-sialyltransferase is at least in part specified by circulatory glucocorticoids. In this report we use the glucocorticoid agonist, RU362, and the antagonist, RU486, to demonstrate the participation of the glucocorticoid receptor pathway in beta-galactoside alpha 2,6-sialyltransferase regulation. The existing pool of sialyltransferase mRNA is turned over with an approximate half-life of 13 h, and presence of dexamethasone does not alter this rate of degradation. By means of nuclear run-off assays and measurement of nuclear unprocessed transcripts we demonstrate that dexamethasone induction of beta-galactoside alpha 2,6-sialyltransferase mRNA in rat Reuber H35 cells is mediated by a transcriptional enhancement mechanism. The same initiation site is utilized for sialyltransferase transcription in both basal- and hormone-stimulated synthesis. Sialyltransferase sequences residing upstream of this transcriptional initiation point are used to control chloramphenicol acetyltransferase expression in fusion constructs following transient transfection into H35 cells to demonstrate the presence of a functional promoter. Although no element with similarity to the known GRE consensus sequence resides within this promoter region, chloramphenicol acetyltransferase expression under the control of the sialyltransferase promoter is subject to a low (1.6-fold) but reproducible induction in response to dexamethasone. Implications of this observation to glucocorticoid regulation are discussed.
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PMID:Transcriptional regulation of the liver beta-galactoside alpha 2,6-sialyltransferase by glucocorticoids. 221 65

The feedback inhibition of interleukin-6 (IL-6) gene expression by glucocorticoids represents a regulatory link between the endocrine and immune systems. The mechanism of the efficient repression of the IL-6 promoter by dexamethasone (Dex) was investigated in HeLa cells transiently transfected with plasmid constructs containing different IL-6 promoter elements linked to the herpesvirus thymidine kinase gene (tk) promoter and the bacterial chloramphenicol acetyltransferase gene (cat) and cotransfected with cDNA vectors constitutively expressing either the active wild-type or inactive mutant human glucocorticoid receptor (GR). The induction by interleukin-1, tumor necrosis factor, phorbol ester, or forskolin of IL-6-tk-cat chimeric constructs containing a single copy of the IL-6 DNA segment from -173 to -151 (MRE I) or from -158 to -145 (MRE II), which derive from within the multiple cytokine- and second-messenger-responsive enhancer (MRE) region, was strongly repressed by Dex in a wild-type GR-dependent fashion irrespective of the inducer used. The induction by pseudorabies virus of an IL-6 construct containing the IL-6 TATA box and the RNA start site ("initiator" or Inr element) but not the MRE region was also repressed by Dex in the presence of wild-type GR. DNase I footprinting showed that the purified DNA-binding fragment of GR bound across the MRE, the TATA box, and the Inr site in the IL-6 promoter; this footprint overlapped that produced by proteins present in nuclear extracts from uninduced or induced HeLa cells. Imperfect palindromic nucleotide sequence motifs moderately related to the consensus GR-responsive element (GRE) motif were present at the Inr, the TATA box, and the MRE II site in the IL-6 promoter; although MRE I and a GR-binding site between -201 and -210 in IL-6 both lacked a discernible inverted repeat motif, their sequences showed considerable similarity with negative GRE sequences in other Dex-repressed genes. Surprisingly, chimeric genes containing MRE II, which lacks a recognizable GACGTCA cyclic AMP- and phorbol ester-responsive motif, were strongly induced by both phorbol ester and forskolin, suggesting that MRE II (ACATTGCACAATCT) may be the prototype of a novel cyclic AMP- and phorbol ester-responsive element. Taken together, these observations suggest that ligand-activated GR represses the IL-6 gene by occlusion not only of the inducible IL-6 MRE enhancer region but also of the basal IL-6 promoter elements.
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PMID:On the mechanism for efficient repression of the interleukin-6 promoter by glucocorticoids: enhancer, TATA box, and RNA start site (Inr motif) occlusion. 223 15

In an effort to understand the molecular basis of androgen action in the prostate, we isolated androgen receptor (AR) cDNA from rat ventral prostate cells and analyzed the transcriptional regulatory activity of the encoded protein in a cotransfection assay. We found that AR is capable of inducing chloramphenicol acetyltransferase activity more than 20-fold using the mouse mammary tumor virus LTR as a source of androgen response elements. This induction was observed in both monkey CV1 cells and human HeLa cells, neither of which contains endogenous functional AR, and was entirely dependent on added androgens. Deletion mapping studies showed that carboxy-terminal deletions of approximately 250 amino acids convert AR into a constitutive activator of transcription. In addition, a chimeric receptor protein containing the amino-terminus and DNA-binding domains of AR fused to the previously defined ligand domain of the glucocorticoid receptor was found to be fully functional based on dexamethasone-induced chloramphenicol acetyltransferase activity. Our results support the prediction that androgens modulate rates of transcriptional initiation, suggesting that posttranscriptional effects of androgens are secondary responses. Moreover, these data reveal that, like other steroid receptors, AR contains a number of distinct regulatory regions important for normal activity. The isolation and characterization of fully functional AR sequences will facilitate the use of molecular genetics to study complex androgen responses in target tissues such as the prostate.
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PMID:Functional characterizations of the androgen receptor confirm that the molecular basis of androgen action is transcriptional regulation. 227 54

We have examined the influence of intracellular vitamin B6 concentration on glucocorticoid receptor function in HeLa S3 cells transfected with a glucocorticoid-responsive chloramphenicol acetyltransferase (CAT) reporter plasmid. CAT activity is induced from this plasmid specifically by glucocorticoid hormones in a glucocorticoid receptor-dependent manner. The intracellular concentration of pyridoxal phosphate, the physiologically active form of the vitamin, was elevated by supplementation of the culture medium with the synthesis precursor pyridoxine and lowered by exposure to the pyridoxal phosphate synthesis inhibitor 4-deoxypyridoxine. Analysis of glucocorticoid responsiveness revealed that elevated concentrations of intracellular pyridoxal phosphate suppressed the amount of glucocorticoid-induced CAT activity whereas moderate deficiency enhanced the level of glucocorticoid receptor-mediated gene expression. In contrast, modulation of the intracellular pyridoxal phosphate concentration had no effect on either basal CAT activity derived from cells not stimulated with dexamethasone or on CAT activity derived from two glucocorticoid-insensitive reporter plasmids. The modulatory effects of pyridoxal phosphate concentration occur without changes in glucocorticoid receptor mRNA levels, glucocorticoid receptor protein concentration, or the steroid binding capacity of the receptor. These observations demonstrate that vitamin B6 selectively influences glucocorticoid receptor-dependent gene expression through a novel mechanism that does not involve alterations in glucocorticoid receptor concentration or ligand binding capacity.
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PMID:Vitamin B6 influences glucocorticoid receptor-dependent gene expression. 237 99

The minimal DNA sequence required for glucocorticoid induction of the phosphoenolpyruvate carboxykinase (PEPCK) gene in H4IIE rat hepatoma cells was defined. This novel glucocorticoid response unit (GRU) spans about 110 base pairs (bp) and includes two receptor-binding elements plus two accessory factor-binding elements. Purified glucocorticoid receptor bound to two regions (GR1 and GR2) between -395 and -349 bp relative to the transcription start site. Factors in crude rat liver nuclear extract bound to DNA in the regions -455 to -431 and -420 to -403 bp, which are designated accessory factor 1 (AF1) and accessory factor 2 (AF2) elements, respectively. Gel retardation analysis revealed that at least two proteins bound to AF1 and that they were distinct from the protein(s) that bound to AF2. Various combinations of GR1, GR2, AF1, and AF2 were fused to the chloramphenicol acetyltransferase (CAT) reporter gene and cotransfected with a glucocorticoid receptor expression plasmid (pSVGR1) into H4IIE cells to identify the functional GRU. Neither the glucocorticoid receptor binding region nor the accessory factor binding region alone was sufficient to confer glucocorticoid responsiveness. The two components of the glucocorticoid receptor binding region functioned independently, and each accounted for half of the maximal response, provided the accessory factor elements were present. Similarly, deletion of either AF1 or AF2 diminished glucocorticoid induction of the PEPCK gene to approximately half of the maximum. We propose that the complex PEPCK gene GRU provides the stringent regulation required of this critical enzyme in liver.
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PMID:Characterization of a complex glucocorticoid response unit in the phosphoenolpyruvate carboxykinase gene. 238 23

Mutations were introduced in 7 kilobases of 5'-flanking rat alpha 1-fetoprotein (AFP) genomic DNA, linked to the chloramphenicol acetyltransferase gene. AFP promoter activity and its repression by a glucocorticoid hormone were assessed by stable and transient expression assays. Stable transfection assays were more sensitive and accurate than transient expression assays in a Morris 7777 rat hepatoma recipient (Hepa7.6), selected for its strong AFP repression by dexamethasone. The segment of DNA encompassing a hepatocyte-constitutive chromatin DNase I-hypersensitive site at -3.7 kilobases and a liver developmental stage-specific site at -2.5 kilobases contains interacting enhancer elements sufficient for high AFP promoter activity in Hepa7.6 or HepG2 cells. Deletions and point mutations define an upstream promoter domain of AFP gene activation, operating with at least three distinct promoter-activating elements, PEI at -65 base pairs, PEII at -120 base pairs, and DE at -160 base pairs. PEI and PEII share homologies with albumin promoter sequences, PEII is a near-consensus nuclear factor I recognition sequence, and DE overlaps a glucocorticoid receptor recognition sequence. An element conferring glucocorticoid repression of AFP gene activity is located in the upstream AFP promoter domain. Receptor-binding assays indicate that this element is the glucocorticoid receptor recognition sequence which overlaps with promoter-activating element DE.
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PMID:Enhancer and promoter elements directing activation and glucocorticoid repression of the alpha 1-fetoprotein gene in hepatocytes. 245 90

The 5'-region of the rat alpha 2-macroglobulin gene has been characterized. A 5.6 kb Sal I - Xba I fragment containing the first 4 exons of the alpha 2-macroglobulin gene and 1.3 kb of its 5'-flanking region was sequenced. The putative transcriptional start site was determined by RNase protection and primer extension analysis. TATA- and CAAT-box equivalent sequences were found. A potential glucocorticoid receptor binding site was located on the antisense strand. DNA sequences containing the 5'-flanking region of the rat alpha 2-macroglobulin gene were linked to the gene coding for the bacterial chloramphenicol acetyltransferase and introduced into Hep G2 cells. In these transfected Hep G2 cells CAT activity could be induced by recombinant human interleukin-6. Deletion analyses have shown that the sequences between -852 and -777 as well as between -404 and -165 relative to the cap site, contain regulatory elements involved in the interleukin-6 dependent induction of the alpha 2-macroglobulin gene.
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PMID:Identification of the promoter sequences involved in the interleukin-6 dependent expression of the rat alpha 2-macroglobulin gene. 246 33


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