EC:2.3.1.28 - FACTA Search

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)

Aromatase, a cytochrome P-450, catalyzes the formation of aromatic C18 estrogenic steroids from C19 androgens. DNA sequence analysis of the human aromatase gene has revealed that a putative promoter sequence exists immediately up-stream of the second exon. Chloramphenicol acetyltransferase functional analyses of cells transfected with chloramphenicol acetyltransferase expression plasmids containing various DNA fragments derived from the 3'-end of the first intron of the aromatase gene were performed to show that a promoter indeed exists in this region. However, in all of the cell lines used in this study, MCF-7, JAR, OVCAR-3, and skin fibroblast, the function of this promoter was inhibited by a negative regulatory element situated up-stream from the promoter. The results further suggest that this inhibitory element behaves as a silencer element, in that it could inhibit a simian virus-40 promoter from a distance of several kilobases. This negative element worked in both orientations and inhibited the functions of several promoters, including the newly identified promoter situated in the 3'-end of the first intron of the human aromatase gene. Primer extension analysis has been performed to determine the potential transcription start site. The mechanism of the regulation of aromatase expression is known to be very complex. The presence of a promoter and a silencer at the 3'-end of the first intron may represent one additional way that aromatase expression is controlled in estrogen-producing cells.
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PMID:Identification of a promoter and a silencer at the 3'-end of the first intron of the human aromatase gene. 133 79

We have identified two regions in the 5'-flanking sequence of the rat quinone reductase gene that contain xenobiotic responsive elements. The DNA sequence of the first region spans nucleotides -393 to -352 of the 5'-flanking region and shares sequence identity with the xenobiotic responsive element (XRE) described for the cytochrome P-450 CYPIA1 gene. The DNA sequence of the second region spans nucleotides -434 to -404 of the 5'-flanking region of the quinone reductase structural gene. When a synthetic oligonucleotide corresponding to nucleotides -434 to -404 was inserted in front of a heterologous promoter linked to the chloramphenicol acetyltransferase structural gene, an increase in basal level expression as well as responsiveness to beta-naphthoflavone and t-butylhydroquinone, but not 2,3,7,8-tetrachlorodibenzo-p-dioxin, was observed. The sequence, -434 to -404, did not have any sequence identity with the XRE but shared a large degree of identity with the antioxidant responsive element recently described for the rat glutathione S-transferase Ya subunit gene (Rushmore, T. H., King, R. G., Paulson, K. E., and Pickett, C. B. (1990) Proc. Natl. Acad. Sci. U. S. A. 87, 3826-3830; Rushmore, T. H., and Pickett, C. B. (1990) J. Biol. Chem. 265, 14648-14653). These results indicate that the antioxidant responsive element can be distinguished functionally from the classical XRE and is also involved in the regulation of the quinone reductase gene by planar aromatic compounds and phenolic antioxidants.
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PMID:Transcriptional regulation of the rat NAD(P)H:quinone reductase gene. Identification of regulatory elements controlling basal level expression and inducible expression by planar aromatic compounds and phenolic antioxidants. 190 Feb 96

By utilizing chimeric genes constructed from 5'-flanking sequences of the human CYP21B (P-450C21) gene and reporter genes (chloramphenicol acetyltransferase or rabbit beta-globin), a 34-nucleotide sequence has been found to be required for cAMP-dependent transcription. This sequence (-129/-96 base pairs) shows no homology to that of the consensus (CRE) cAMP-regulatory element. Gel retardation analysis shows that a protein-DNA complex is formed between this DNA sequence and nuclear proteins from mouse adrenal Y1 tumor cells or bovine adrenal cortical cells or human fetal adrenal tissue and that formation of this complex cannot be competed by DNA containing the consensus CRE sequence. Even though cAMP-enhanced accumulation of P-450C21 mRNA in primary cultures of bovine adrenocortical cells is inhibited by the protein synthesis inhibitor, cycloheximide, reporter gene transcription enhanced by the cAMP-responsive -129/-96-base pair fragment of the human CYP21B gene is not. We conclude that cAMP-dependent transcription of the human P-450C21 gene (CYP21B), an event required for maintenance of optimal steroidogenic capacity in the adrenal cortex, involves a stable transcription factor(s) distinct from the CRE-binding protein. Furthermore the cAMP-dependent cis-regulatory element of the human P-450C21 gene is distinct from those found associated with the other steroid hydroxylase genes, 17 alpha-hydroxylase cytochrome P-450, cholesterol side chain cleavage cytochrome P-450, and 11 beta-hydroxylase cytochrome P-450, suggesting that each of these genes may require its own set of specific transcription factors for cAMP-dependent regulation.
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PMID:cAMP-dependent transcription of the human CYP21B (P-450C21) gene requires a cis-regulatory element distinct from the consensus cAMP-regulatory element. 216 43

Hepatic expression of various members of the cytochrome P-450 (CYP) superfamily is suppressed during inflammatory responses. We have shown that the specific expression of P-450 2C11 in male rat liver is suppressed transcriptionally by endotoxin treatment. To investigate the molecular mechanisms underlying this phenomenon, we studied the effects of the inflammatory cytokines interleukin (IL)-1, IL-6, tumor necrosis factor-alpha (TNF), interferon (IFN)-alpha, and IFN-gamma on the expression of P-450 2C11 and the mRNAs of two typical acute-phase protein genes, alpha 1-acid glycoprotein (AGP) and fibrinogen, in primary hepatocyte cultures. IL-1, IL-6, TNF, and IFN-alpha all suppressed P-450 2C11 mRNA, whereas IFN-gamma had no effect. IL-1 and TNF were more effective than IL-6 in the suppression of P-450 2C11 mRNA. Whereas IL-1 and IL-6 effects on P-450 2C11 were accompanied by induction of AGP and fibrinogen mRNAs, IFN-alpha and TNF treatments had no effects on AGP. The suppression of P-450 2C11 and the induction of AGP by IL-1 showed similar time courses. The combination of IL-1 and IL-6 showed additivity in suppression of P-450 2C11, at maximally effective concentrations of cytokines. The effects of IL-1 on P-450 2C11 and AGP expression were blocked by IL-1 receptor antagonist protein. We also studied the effects of IL-1 and IL-6 on the transient expression of chloramphenicol acetyl-transferase reporter gene constructs containing 200 or 1287 base pairs of the 5' flanking region of the CYP2C11 gene, transfected into primary hepatocytes. The chloramphenicol acetyltransferase activities in cells transfected with the 200-base pair construct were reduced to about 33% and 58% of control levels by treatment with IL-1 or IL-6, respectively, suggesting that sequences important for cytokine down-regulation lie within the proximal promoter region of the CYP2C11 gene.
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PMID:Suppression of the constitutive expression of cytochrome P-450 2C11 by cytokines and interferons in primary cultures of rat hepatocytes: comparison with induction of acute-phase genes and demonstration that CYP2C11 promoter sequences are involved in the suppressive response to interleukins 1 and 6. 753 97

CYP19, the human aromatase cytochrome P-450 (P450arom) gene, encodes an enzyme which converts androgens to estrogens by three successive hydroxylation reactions by coupling with NADPH-cytochrome P-450 reductase. In the present study, we have characterized two cis-acting transcriptional regulatory elements of CYP19, termed as hATRE-1 (human aromatase cytochrome P-450 gene transcriptional regulatory element-1) ([sequence: see text]) and hATRE-2 ([sequence: see text]). These sequences are located between -2238 and -2214, and between -2141 and -2098 relative to the major cap site of the gene, respectively. Transient expression analysis in human BeWo choriocarcinoma cells, in which CYP19 is expressed, shows that hATRE-1 represses the expression of the bacterial chloramphenicol acetyltransferase reporter gene driven by the promoter of CYP19, whereas hATRE-2 enhances the reporter gene expression in response to 12-O-tetradecanoylphorbol 13-acetate. Electrophoretic mobility shift analysis indicates that nuclear binding factors specific to hATRE-1 are present in BeWo cells, but not in HeLa cells nor in TYK-nu cells that lack the expression of CYP19. In contrast, nuclear binding factors to hATRE-2 are present not only in BeWo cells but also in the latter two types of cells. Nevertheless, hATRE-2 does not affect the reporter gene expression in HeLa cells and TYK-nu cells. These results indicate that hATRE-1 and hATRE-2 are cis-acting transcriptional regulatory elements involving in the regulation of the cell type-specific expression of CYP19.
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PMID:Identification and characterization of cis-acting regulatory elements for the expression of the human aromatase cytochrome P-450 gene. 813 35

DNA elements governing transcription of the ovine cytochrome P-450 side-chain cleavage (CYP11A1) gene were investigated. Three overlapping genomic clones for the ovine CYP11A1 gene were isolated and characterized. The transcriptional start site was located 51 nucleotides upstream from the initiating methionine. Gene transfer experiments were conducted in murine adrenocortical Y1 cells and human choriocarcinoma JEG-3 cells using chloramphenicol acetyltransferase reporter gene constructs containing promoter fragments from -2700 to -177 bp. The results demonstrate that DNA elements sufficient to convey a basal level of expression and cyclic AMP (cAMP) responsiveness lie within 177 bp of the transcriptional start, although the possibility that additional regulatory elements reside outside this 177 bp has not been excluded. The ovine 5' flanking sequence demonstrated 92% homology with the bovine sequence, extending over the entire fragment. In contrast, only four significant regions of conservation between the ovine, murine, rat and human CYP11A1 promoters were found. These regions are positioned within 200 bp upstream of the transcriptional start site. DNase 1 footprinting was performed to identify DNA elements able to bind nuclear proteins. Primary adrenocortical and placental tissues from sheep were used as the source of nuclear extracts to detect DNA-protein interactions relevant to CYP11A1 gene expression in vivo. Five regions of protection were detected in the first -634 bp of the ovine CYP11A1 promoter. Three of these elements corresponded to the regions which are well-conserved between species. The other two elements resembled activating protein-1 (AP-1) and AP-4 sites and overlapping AP-2/Sp1 sites, and are conserved in the bovine gene but not in other species. Nuclear protein extracts from adrenals of sheep with different serum ACTH levels (i.e. ACTH-treated, dexamethasone-treated and untreated sheep) protected similar regions of the ovine CYP11A1 promoter fragment. Similarly, the regions protected did not differ when nuclear protein from JEG-3 cells treated with cAMP was compared with that of untreated JEG-3 cells. These results suggest that induction of CYP11A1 gene transcription by ACTH in the ovine adrenal and by cAMP in JEG-3 cells in culture is not mediated by changes in binding of the proteins that interact directly with these footprinted elements. The elements footprinted by extracts from primary ovine tissue lie within the 177 bp sufficient for cAMP-regulated expression. The correspondence of these elements either to regions conserved between species or to known consensus binding sites suggests that these sequences are cis elements involved in regulating transcription of the ovine CYP11A1 gene in vivo.
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PMID:Molecular cloning and characterization of the cyclic AMP-responsive ovine CYP11A1 (cholesterol side-chain cleavage) gene promoter: DNase 1 protection of conserved consensus elements. 837 14

Phenobarbital is an inducer of xenobiotic-metabolizing enzymes, such as cytochrome P-450, glutathione S-transferases (GSTs) and NAD(P)H:quinone reductase, as well as being a promoter of hepatocarcinogenesis. The molecular mechanisms regulating these biological activities are, however, unknown. In this paper we show that induction by phenobarbital of GST Ya and quinone reductase gene expression is mediated by regulatory elements, EpRE and ARE respectively, which are composed of two adjacent AP-1-like binding sites. EpRE was recently found to be activated by a Fos/Jun heterodimeric complex (AP-1). Here we show that phenobarbital induces an increase in AP-1 binding activity in nuclear extracts of cultured hepatoma cells. Furthermore, we observe that the induction of chloramphenicol acetyltransferase (CAT) activity from an EpRE Ya-cat gene construct and of AP-1 binding activity by phenobarbital is inhibited by the thiol compounds N-acetyl-L-cysteine and glutathione. These results suggest that the phenobarbital induction of AP-1 activity, leading to the AP-1-mediated transcriptional activation of the GST Ya and quinone reductase genes, may involve production of reactive oxygen species and an increase in intracellular oxidant levels, which is prevented by thiol compounds. In view of the involvement of AP-1 in the control of cell proliferation and transformation, the induction by phenobarbital of AP-1 binding activity observed here provides a possible molecular mechanism for the tumour-promoting activity of this drug.
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PMID:Phenobarbital induction of AP-1 binding activity mediates activation of glutathione S-transferase and quinone reductase gene expression. 845 90

In the present study, we analysed the expression of monooxygenase activities and mRNAs associated with cytochrome P-450 (CYP), including CYP1A1/2, CYP2B1/2, CYP2C6, CYP2E1, CYP3A1/2, glutathione transferase alpha (GST alpha), aldehyde dehydrogenase and epoxide hydrolase in co-cultures of primary rat hepatocytes and rat liver epithelial cells. We observed that pentoxyresorufin O-deethylation activity was well maintained and ethoxyresorufin O-deethylation activity gradually decreased during co-culture time. In addition, we showed that phenobarbital and 3-methylcholanthrene treatments resulted in a significant increase of these activities. Two general patterns of accumulation of liver-specific mRNAs were observed. CYP1A1/2, CYP2B1/2, CYP3A1/2, GST alpha, aldehyde dehydrogenase and epoxide hydrolase mRNAs were maintained at a stable level, whereas CYP2C6 and CYP2E1 mRNAs showed a continuous decline. In addition, we observed a strong increase of CYP1A1/2 (13.6-fold) and GST alpha (3.9-fold) mRNA expression in 3-methylcholanthrene-treated co-cultures and induction of CYP2B1/2 (19-fold), CYP2C6 (10-fold), CYP3A1/2 (11.2-fold), GST alpha (9-fold), aldehyde dehydrogenase (6-fold) and epoxide hydrolase (5-fold) mRNA expression in phenobarbital-treated co-cultures. Furthermore, we demonstrated that liver-specific gene expression was restricted to hepatocytes, with the notable exception of epoxide hydrolase and CYP2E1 which were expressed in both cell types during the co-culture, as shown by the selective recovery of both hepatocytes and rat liver epithelial cells. Finally, to investigate whether co-cultures could be used to study the molecular mechanisms regulating CYP transcription, we performed transfection of hepatocytes, before the establishment of the co-culture, with large CYP2B1 (3.9 kb) or CYP2B2 (4.5 kb) promoter chloramphenicol acetyltransferase constructs or with a construct containing a 163-bp DNA sequence element reported to confer phenobarbital responsiveness. A 2-3-fold increase over the basal level of chloramphenicol acetyltransferase activity was observed in phenobarbital-treated co-cultures transfected with the phenobarbital-responsive element construct, although phenobarbital had no effect on large CYP2B1 or CYP2B2 promoter fragments. Our results demonstrate that the co-culture system provides a good tool for studying drug metabolism, and shows promise as a new tool for analysing transcriptional regulation under the influence of xenobiotics within primary hepatocytes.
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PMID:Regulation of the major detoxication functions by phenobarbital and 3-methylcholanthrene in co-cultures of rat hepatocytes and liver epithelial cells. 906 51

3,3',4,4',5-Pentachlorobiphenyl (PenCB), one of the most toxic co-planar polychlorinated biphenyl congeners, specifically induces class Pi glutathione S-transferase (GSTP1) as well as cytochrome P-450 1A1 in primary cultured rat liver parenchymal cells [Aoki, Matsumoto and Suzuki (1993) FEBS Lett. 333, 114-118]. However, the 5'-flanking sequence of the GSTP1 gene does not contain a xenobiotic responsive element, to which arylhydrocarbon receptor binds. Using a chloramphenicol acetyltransferase assay we demonstrate here that the enhancer termed GSTP1 enhancer I (GPEI) is necessary for the stimulation by PenCB of GSTP1 gene expression in primary cultured rat liver parenchymal cells. GPEI is already known to contain a dyad of PMA responsive element-like elements oriented palindromically. It is suggested that a novel signal transduction pathway activated by PenCB contributes to the stimulation of GSTP1 expression.
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PMID:Identification of an enhancer element of class Pi glutathione S-transferase gene required for expression by a co-planar polychlorinated biphenyl. 1005 28

Production of the glycoprotein hormone alpha-subunit (GPH alpha) was enhanced by sodium butyrate (Btr) in HeLa cells. Induction of the HeLa alpha-subunit gene by Btr was inhibited by the simultaneous addition of cycloheximide (CHX), indicating a requirement for continued protein synthesis. Transient expression assays using plasmids containing the GPH alpha gene promoter fused to the chloramphenicol acetyltransferase (CAT) reporter gene demonstrated that the GPH alpha promoter is inducible by Btr in HeLa cells, and this induction could be prevented by 2-deoxyglucose (dGlc). CAT production driven by the SV-40 early promoter, the cytochrome P-450-IA1 promoter, and the Rous sarcoma virus long terminal repeat was also enhanced by Btr, but the augmented synthesis was not inhibited by the addition of dGlc, demonstrating that the effect is restricted only to some promoters. CAT synthesis could be induced by Btr when the GPH alpha promoter extended upstream to position -169 (relative to the transcription start site at +1) but not when the promoter terminated at -150, classifying the DNA between these termini as a Btr-responsive element (BRE). This region overlaps the composite trophoblast-specific enhancer. Inactivation of enhancer subdomains by site-directed mutagenesis confirmed the deletion analysis and ranked their response to Btr as CRE < TSE < URE < alpha ACT. Electrophoretic mobility shift analysis failed to detect any significant difference among several enhancer binding proteins in nuclear extracts from untreated and Btr-treated cells. Together, these results suggest that Btr-mediated induction of the alpha-subunit gene in HeLa cells is manifest either through the synthesis of a new transcription factor(s), which is inhibited by CHX but required for increased transcription from the GPH alpha gene promoter, or through the activity of existing factors that may require glycosylation or phosphorylation by a modification system that is inducible by Btr and inhibited by dGlc and CHX. These results further suggest that the factor is not an enhancer-binding protein or that Btr increases its transactivation potential without altering its DNA-binding activity.
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PMID:Sodium butyrate-mediated induction of the glycoprotein hormone alpha-subunit gene: requirement for continued protein synthesis, identification of a butyrate-responsive element, and inhibition of promoter activation by 2-deoxyglucose. 1040 94

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