Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.3.1.28 (chloramphenicol acetyltransferase)
 5,100 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We previously isolated a cDNA clone encoding interferon consensus sequence-binding protein (ICSBP), a member of the interferon regulatory factor (IRF) family, that binds to the interferon (IFN)-stimulated response element (ISRE) of many IFN-regulated genes. In this investigation, we studied the functional role of ICSBP by transient cotransfection of ICSBP cDNA with IFN-responsive reporter genes into the human embryonal carcinoma cell line N-Tera2. These cells were shown not to express ICSBP or IRF-2, thus allowing functional analysis of transfected cDNAs. Cotransfection of ICSBP into cells treated with retinoic acid or any of the IFNs (alpha, beta, or gamma) repressed expression of a chloramphenicol acetyltransferase reporter driven by the major histocompatibility complex class I gene promoter. Similarly, ICSBP repressed expression of chloramphenicol acetyltransferase reporters driven by the ISREs of the 2'-5' oligoadenylate synthetase, guanylate-binding protein, and ISG-15 genes in IFN-treated cells. The repression was dependent on the presence of the ISRE in the reporter. Deletion analysis showed that the putative N-terminal DNA binding domain of ICSBP by itself is capable of mediating the repression. Using the same cotransfection conditions as for ICSBP, a similar repression of these reporters was observed with IRF-2. Finally, ICSBP repressed the IRF-1-mediated induction of major histocompatibility complex class I and IFN-beta reporters in the absence of IFN or retinoic acid. Taken together, these results suggest that ICSBP is a negative regulatory factor capable of repressing transcription of target genes induced by IFN, retinoic acid, or IRF-1.
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PMID:Interferon consensus sequence-binding protein, a member of the interferon regulatory factor family, suppresses interferon-induced gene transcription. 767 54

It was previously demonstrated that retinoic acid (RA) can enhance the functional responses of human T lymphocytes by increasing surface IL-2R alpha chain protein expression on proliferating T blasts, resulting in augmented IL-2-dependent growth. In the present study, we used IL-2-maintained lymphoblasts generated from human thymocytes to show that RA enhancement of IL-2R alpha is accompanied by an increase in steady-state levels of IL-2R alpha mRNA. This increase occurred within 1 hr after the addition of RA to the culture and was inhibited by the presence of the protein synthesis inhibitor cycloheximide. RA did not alter the stability of either IL-2R alpha on the cell surface or IL-2R alpha mRNA, suggesting regulation by RA at the level of transcription. This contention was supported by the demonstrated ability of RA to activate the IL-2R alpha promoter in a chloramphenicol acetyltransferase plasmid construct that was transfected into the blast cells. In addition to inducing IL-2R alpha expression, RA also increased the surface expression and mRNA levels of IL-2R beta, the 75-kDa component of the IL-2 receptor that mediates IL-2 signal transduction. These new findings showing regulation by RA of both IL-2R alpha and IL-2R beta suggest multiple pathways by which this retinoid can modulate functional IL-2 receptors.
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PMID:Upregulation by retinoic acid of interleukin-2-receptor mRNA in human T lymphocytes. 767 84

All-trans-retinoic acid (RA) and retinoids induce synthesis of tissue-type plasminogen activator (t-PA) in endothelial and neuroblastoma cells in vitro and in rats in vivo. In HT1080 fibrosarcoma cells, induction of t-PA-related antigen secretion and t-PA mRNA steady state levels by RA were found to depend on de novo protein and mRNA synthesis. Fragments derived from the 5'-flanking region of the t-PA gene (+197 to -9578 base pairs (bp)) were linked to the chloramphenicol acetyltransferase gene. Transfection studies demonstrated that the region spanning bp -7145 to -9578 mediated induction by RA. A functional retinoic acid response element (RARE), consisting of a direct repeat of the GGGTCA motif spaced by 5 nucleotides (t-PA/DR5), was localized at -7.3 kilobases. The t-PA/DR5 element interacted with the heterodimer composed of retinoic acid receptor alpha and retinoid X receptor alpha in vitro, whereas its mutation abolished induction by RA in transient expression. In human EA.hy926 hybrid endothelial and in SK-N-SH neuroblastoma cells, the activity of t-PA/DR5 was found to be independent of the intervening sequence (-632 to -7144 bp) and of its distance from the transcription initiation site. Staurosporine, an inhibitor of protein kinase activity, inhibited induction by RA, suggesting that it required protein phosphorylation.
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PMID:Retinoic acid induction of human tissue-type plasminogen activator gene expression via a direct repeat element (DR5) located at -7 kilobases. 770 55

Although steroid hormone receptor activation has been known to be dependent on ligand binding, we report here ligand-independent transcriptional activation of the vitamin D receptor and retinoid receptors. In these studies, CV1 cells were transiently transfected with a human vitamin D receptor (VDR) expression vector and a reporter plasmid that contains multiple copies of the rat osteocalcin vitamin D response element up-stream of the bacterial chloramphenicol acetyltransferase (CAT) gene [osteocalcin (OC)VDREtkCAT]. Treatment of cells with 10(-8) M 1,25-dihydroxyvitamin D3 resulted in a 25-fold induction of CAT activity. When cells were treated with 5-50 nM okadaic acid (OA), an inhibitor of protein phosphatase-1 and -2A, significant inductions of CAT activity (18- to 57-fold) were observed. As VDR and dopamine receptors are colocalized in certain brain regions, we also examined whether VDR-mediated transcription can be activated by dopamine. VDR was found to activate CAT gene expression in cells treated with 200-500 microM dopamine (3- to 11-fold induction) or the selective D1 agonist SKF38393 (20-fold induction). Cells were also transfected with retinoic acid receptor (RAR) or retinoid-X receptor (RXR) expression vectors and reporter plasmids that contain either a retinoic acid response element or an RXR-specific response element. OA alone induced chloramphenicol acetyltransferase (CAT) activity in cells transfected with RAR alpha, RAR beta, RXR alpha, RXR beta, or RXR gamma (3- to 18-fold induction). However, OA did not affect transcription by RAR gamma, suggesting specificity of activation by OA among the retinoid receptors. Although the retinoid receptors have been detected in brain, maximum stimulation of transcription was not greater than 1.6-fold in the presence of 100-500 microM dopamine or 100 microM SKF38393 treatment. These data suggest specificity for dopamine activation among steroid hormone receptors and that phosphorylation alone, in the absence of ligand, can activate VDR- and retinoid receptor-mediated transcription.
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PMID:Ligand occupancy is not required for vitamin D receptor and retinoid receptor-mediated transcriptional activation. 777 73

Phosphoenolpyruvate carboxykinase (PEPCK) is expressed at high levels in liver, kidney, and adipose tissue. This enzyme catalyzes the rate-limiting step in hepatic and renal gluconeogenesis and adipose glyceroneogenesis. The regulatory factors important for adipose expression of the PEPCK gene are not well defined. Previous studies with transgenic mice established that the region between bp -2086 and -888 is required for expression in adipose tissue but not for expression in liver or kidney tissue. We show here that a DNA fragment containing this region can function as an enhancer and direct differentiation-dependent expression of a chloramphenicol acetyltransferase gene from a heterologous promoter in cultured 3T3-F442A preadipocytes and adipocytes. We further demonstrate that the adipocyte-specific transcription factor PPAR gamma 2, previously identified as a regulator of the adipocyte P2 enhancer, binds in a heterodimeric complex with RXR alpha to the PEPCK 5'-flanking region at two sites, termed PCK1 (bp -451 to -439) and PCK2 (bp -999 to -987). Forced expression of PPAR gamma 2 and RXR alpha activates the PEPCK enhancer in non-adipose cells. This activation is potentiated by peroxisome proliferators and fatty acids but not by 9-cis retinoic acid. Mutation of the PPAR gamma 2 binding site (PCK2) abolishes both the activity of the enhancer in adipocytes and its ability to be activated by PPAR gamma 2 and RXR alpha. These results establish a role for PPAR gamma 2 in the adipose expression of the PEPCK gene and suggest that this factor functions as a coordinate regulator of multiple adipocyte-specific genes.
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PMID:PPAR gamma 2 regulates adipose expression of the phosphoenolpyruvate carboxykinase gene. 779 43

In this study, we have demonstrated that retinoic acid (RA) and thyroid hormone (T3) stimulate the synthesis and release of human placental lactogen (hPL), one of the major secretory products of syncytiotrophoblast cells. Enzymatically, dispersed trophoblast cells from term placentas exposed continuously to RA (0.5 microM) and T3 (0.1 microM) for 5 days released significantly more hPL than control cells after 3 days of exposure (P < 0.001 in each instance). On days 4 and 5, the amounts of hPL released by cells exposed to RA and T3 were approximately 3- and 5-fold higher than those in control cells, respectively. The stimulation by both RA and T3 was dose dependent and was accompanied by stimulation of hPL messenger RNA levels. RA and T3 caused 3.5- and 5.6-fold increases, respectively, in chloramphenicol acetyltransferase activity in BeWo choriocarcinoma cells transfected transiently with a 2.3-kilobase (kb) fragment of the hPL promoter (-2300 to 2 basepairs) coupled to a chloramphenicol acetyltransferase reporter gene. Deletion construct analysis of the hPL promoter (2.3, 1.2, and 0.5 kb) indicated that the T3- and RA-responsive elements are localized -0.5 to -1.2 kb up-stream from the transcriptional start site (+1), where several consensus RA- and T3-responsive element sites are present. These results indicate that RA and T3 stimulate the synthesis and release of hPL by a mechanism involving hPL gene transcription and further support a role for these steroids in placental function.
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PMID:Retinoic acid and thyroid hormone regulate placental lactogen expression in human trophoblast cells. 786 2

The rat Reuber hepatoma cell cell line, H4IIEC3, has been used in gene transfection studies to study the molecular mechanisms of induction of the acyl CoA oxidase gene, the first and rate-limiting enzyme of the peroxisomal fatty acid beta-oxidation spiral. cDNAs encoding the peroxisome proliferator activated receptor and the 9-cis retinoic acid receptor were transfected into the cells, either in the presence or absence of their cognate ligands (Wy-14,643 and 9-cis retinoic acid respectively), in addition to the acyl CoA oxides promoter linked to a chloramphenicol acetyltransferase reporter gene construct. The above experimental approach has confirmed that the 9-cis retinoic acid receptor acts cooperatively with the peroxisome receptor in mediating activation of the acyl CoA oxidase gene. In addition, in vivo experiments have demonstrated that treatment of rats with peroxisome proliferators substantially increase the hepatic levels of the peroxisome receptor mRNA itself. Taken collectively, the above data provides a wealth of molecular and mechanistic information on perioxisome proliferation in the rat and is discussed in terms of the safety assessment of peroxisome proliferators in man.
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PMID:Molecular toxicology of peroxisome proliferators. 786 64

We have previously shown that retinoic acid (RA) induces differentiation in an osteoblastic cell line derived from embryonic rat calvaria and that RA has selective effects on zif268 gene expression in these preosteoblastic cells,distinct from those in more mature osteoblasts. In this study we demonstrate that the RA-dependent transcriptional increase in zif268 gene expression is mediated by the interaction of RA receptors (RARs) with a 17 base pair sequence in the zif268 promoter containing a single half-site motif (GTTCA), identical to each of the direct repeats seen in the RAR beta 2 gene. The sequence appears relatively RA-specific, since the zif268 RA-responsive element is not activated by 1,25-dihydroxyvitamin D3 or thyroid hormone (T3). However, cotransfection of RAR expression vectors and an SV-40 promoter chloramphenicol acetyltransferase (CAT) construct containing the single zif268 RA-responsive motif into CV-1 cells demonstrates that the alpha-, beta-, and gamma-RARs transactivate through this element. Extensive mutagenesis of the zif268 promoter region containing the RA response element (RARE) motif confirms that the transactivation and nuclear protein binding activity of this region requires only the half-site motif. The direct involvement of RAR in this DNA-protein interaction has been demonstrated by competitive gel retardation analysis using consensus RAREs and super-shifting of the DNA-protein complex with mouse alpha- or gamma-RAR monoclonal antibodies. In addition, we found that cell-specific suppression of RA-stimulated zif268 gene expression can be attributed to a 29 base pair nucleotide sequence, located downstream of the RA-responsive region in the zif268 gene. This sequence appears to be bound specifically by nuclear protein(s) from several cell types, including osteoblasts. The presence of this sequence in cis to the zif268 RARE or the consensus beta RARE completely blocks the RA-responsiveness of the zif268 gene in differentiated osteoblasts. These data extend the broad spectrum of RA-responsive sequences necessary for DNA binding and transactivation to include regulation via single RARE half-site motifs and suggest that the lack of RA responsiveness in differentiated osteoblasts may be mediated by cell-specific suppression of gene expression.
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PMID:Characterization of retinoic acid- and cell-dependent sequences which regulate zif268 gene expression in osteoblastic cells. 787 19

The mitochondrial uncoupling protein (UCP) is responsible for the thermogenic function of brown fat, and it is a molecular marker of the brown adipocyte cell type. Retinoic acid (RA) increased UCP mRNA levels severalfold in brown adipocytes differentiated in culture. This induction was independent of adrenergic pathways or protein synthesis. RA stimulated ucp gene expression regardless of the stage of brown adipocyte differentiation. In transient transfection experiments RA induced the expression of chloramphenicol acetyltransferase vectors driven by 4.5 kilobases of the 5'-noncoding region of the rat ucp gene, and co-transfection of expression vectors for RA receptors enhanced the action of RA. Retinoic acid receptor alpha was more effective than retinoid X receptor in promoting RA action, whereas a mixture of the two was the most effective. The RA-responsive region in the ucp gene was located at -2469/-2318 and contains three motifs (between -2357 and -2330) of the consensus half-sites characteristic of retinoic acid response elements. This 27-base pair sequence specifically binds purified retinoic acid receptor alpha as well as related proteins from brown fat nuclei. In conclusion, a novel potential regulatory pathway of brown fat development and thermogenic function has been recognized by identifying RA as a transcriptional activator of the ucp gene.
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PMID:A novel regulatory pathway of brown fat thermogenesis. Retinoic acid is a transcriptional activator of the mitochondrial uncoupling protein gene. 789 Jun 89

The somatostatin (SS) gene is transcriptionally regulated via the cyclic AMP (cAMP) response element (CRE), located in the proximal promoter (-41 to -48 bp). We have previously reported that glucocorticoids induce dose-dependent cell-specific alterations in the steady-state SS mRNA level. Here we have investigated direct transcriptional control of the SS gene by glucocorticoids. We have examined transcriptional interaction between glucocorticoids and the cAMP signalling pathway and mapped the 5' upstream regulatory region of the SS gene involved in glucocorticoid transactivation. Transcriptional regulation was determined by analysis of chloramphenicol acetyltransferase (CAT) activity in PC12 rat pheochromocytoma cells and A126-1B2 (protein kinase A-deficient mutant PC12) cells, by acute transfection of 5' flanking SS DNA (- 750, -250 and -71 bp) ligated to the reporter (CAT) gene. Dexamethasone (DEX) induced a dose-dependent 2.2-fold stimulation of SS gene transcription in PC12 cells, but not in A126-1B2 cells. Other steroid and thyroid hormones tested, and retinoic acid, were ineffective, while cAMP and forskolin stimulated gene transcription 4-5-fold in PC12 cells but not in A126-1B2 cells. DEX exerted an additive effect on cAMP-induced gene transcription. Deletion of the promoter from -750 to -71 bp (but not from -750 to -250 bp) abolished all stimulatory effects of DEX without affecting cAMP responsiveness. Mutation of the CRE abrogated both DEX- and cAMP-dependent gene enhancement. Gel electrophoretic mobility shift assays confirmed that the -250 to -71 bp region of the SS promoter (but not the -71 to +55 bp domain) binds specifically to a glucocorticoid response element-sensitive nuclear protein(s) from PC12 cells, suggesting a putative glucocorticoid receptor interaction with SS promoter DNA. We conclude that glucocorticoids regulate SS gene transcription positively. Glucocorticoid-induced transactivation shows dependence on protein kinase. A activity, and may be mediated via protein-protein interaction between the glucocorticoid receptor and the CRE binding protein. DNA sequences upstream from the CRE between -250 and -71 bp in the SS promoter appear to be the target of glucocorticoid action.
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PMID:Glucocorticoids activate somatostatin gene transcription through co-operative interaction with the cyclic AMP signalling pathway. 791 2


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