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)

Analogues of cAMP have been reported to increase insulin mRNA levels in normal rat beta-cells and hamster insulinoma cells (HIT). To define the mechanisms by which cAMP modulates insulin gene expression, we first investigated its effects on the transcriptional rate of the insulin gene in HIT cells. Nuclear run-on assays revealed a 4-fold increase in transcription observed as early as 1 h after stimulation. To characterize the cis-acting sequences of the rat insulin I gene promoter and the trans-acting factors mediating the cAMP effect on insulin gene transcription, we constructed DNA plasmids containing various lengths of the rat insulin I gene 5'-flanking region linked to the bacterial reporter gene, chloramphenicol acetyltransferase (CAT). Studies of the transcriptional activity of 5'-deletionally and pointly mutated plasmids after transfection into HIT cells revealed the presence of a cAMP-responsive element (CRE), TGACGTCC, between -177 and -184 relative to the transcriptional start site, whose sequence closely matches the previously defined CREs, present in cAMP-responsive genes. Gel retardation and Southwestern assays identify a protein of molecular weight approximately 43,000, binding specifically to the insulin CRE. We conclude that the rat insulin I gene is regulated by cAMP through a CRE and that the nuclear protein interacting with it might be similar or identical to the previously purified cAMP-responsive protein, CREB.
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PMID:Functional characterization of a cAMP-responsive element of the rat insulin I gene. 215 35

We report that the expression of the vimentin gene, a cytoskeletal growth-regulated gene, is activated in trans by the Tax (p40x) transactivator protein encoded by the human T-cell leukemia virus type I. Expression of the Tax protein activates a number of cellular genes, such as those coding for the alpha chain of the high-affinity interleukin-2 receptor and interleukin-2. These findings indicate that the Tax protein is involved in the unregulated T-cell growth associated with human T-cell leukemia virus type I infection. Higher levels of vimentin mRNA were expressed in two human T-cell leukemia virus type I-transformed T cell lines, C91/PL and C81-66/45, when compared with that in Jurkat T cells. We demonstrate that this activation is conferred by the vimentin upstream flanking sequences. Indeed, enhanced activity was detected when constructs with the vimentin promoter linked to the chloramphenicol acetyltransferase gene were transfected in HeLa cells and in two cell lines of hematopoietic origin (Jurkat T lymphoblastoid cells and U937 promonocytic cells) together with a Tax expression plasmid. By introducing a series of deletions in the vimentin promoter, we further restrict these sequences to 30 base pairs, located between 241 and 210 base pairs upstream of the mRNA cap site. A 40-base-pair oligonucleotide containing this regulatory region proved sufficient to confer Tax inducibility upon a heterologous promoter linked to chloramphenicol acetyltransferase. Importantly, this segment includes an 11-base-pair promoter segment that has homology with the binding site for the NF-kappa B transactivating factor. Our findings indicate that constitutive expression of the vimentin gene under the control of the Tax protein may be relevant in understanding the progression of the lymphoproliferative process associated with human T-cell leukemia virus type I infection.
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PMID:Effect of human T-cell leukemia virus type I tax protein on activation of the human vimentin gene. 229 64

The adenovirus early region 3 (E3) promoter is an early viral promoter which is strongly induced by the adenovirus transactivator protein E1A. DNase I footprinting with HeLa cell extracts has identified four factor-binding domains which appear to be involved in basal and E1A-induced transcriptional regulation. These binding domains may bind TATA region-binding factors (site I), the CREB/ATF protein (site II), the AP-1 protein (site III), and nuclear factor I/CTF (site IV). Recently, it has been shown that the DNA-binding domain of transcription factor AP-1 has homology with the yeast transcription factor GCN4 and that the yeast transactivator protein GAL4 is able to stimulate transcription in HeLa cells from promoters containing GAL4-binding sites. These results suggest an evolutionary conservation of both transcription factors and the mechanisms responsible for transcriptional activation in Saccharomyces cerevisiae and higher eucaryotic organisms. To determine whether similar patterns of transcriptional regulation were seen with the E3 promoter in HeLa and yeast cells, the E3 promoter fused to the chloramphenicol acetyltransferase (cat) gene was cloned into a high-copy-number plasmid and stably introduced into yeast cells. S1 analysis revealed that similar E3 promoter mRNA start sites were found in yeast and HeLa cells. DNase I footprinting with partially purified yeast extracts revealed that four regions of the E3 promoter were protected. Several of these regions were similar to binding sites determined by using HeLa cell extracts. Oligonucleotide mutagenesis of these binding domains indicated their importance in the transcriptional regulation of the E3 promoter in yeast cells. These results suggest that similar cellular transcription factor-binding sites may be involved in the regulation of promoters in both yeast and mammalian cells.
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PMID:Adenovirus transcriptional regulatory regions are conserved in mammalian cells and Saccharomyces cerevisiae. 297 53

D-Penicillamine, an amino acid analogue of cysteine, has been shown to inhibit the transactivation of HIV-1 LTR by the transactivator protein, tat protein. The transactivation was studied in Jurkat cells co-transfected with plasmids containing HIV-LTR sequences fused to the bacterial chloramphenicol acetyltransferase (CAT) gene and HIV tat gene. The expression of CAT activity was a measure of transactivation of LTR by the tat protein. Incubation of transfected Jurkat cells with D-penicillamine led to inhibition of CAT activity. This inhibition was found to be concentration-dependent; more than 90% inhibition of chloramphenicol acetylation was seen in extracts prepared from cultures incubated with 40 micrograms/ml of D-penicillamine. Earlier experiments have shown that D-penicillamine at 40 micrograms/ml can completely inhibit HIV-1 (HTLV-III B) replication in H9 cells [(1986) Drug Res. 36, 184-186]. These results suggest that inhibition of transactivation may be the molecular mechanism involved in the inhibition of HIV-1 replication by D-penicillamine.
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PMID:D-penicillamine inhibits transactivation of human immunodeficiency virus type-1 (HIV-1) LTR by transactivator protein. 341 42

12(R)-Hydroxy-5,8,14(Z,Z,Z)-eicosatrienoic acid (12(R)-HETrE) is an arachidonic acid metabolite formed by the corneal epithelium of several species, porcine leukocytes, and human and rat epidermal cells. It is a potent, stereospecific proinflammatory and angiogenic factor and its synthesis is increased manyfold in inflamed tissues, e.g. cornea and skin. It is possible that the angiogenic activity of 12(R)-HETrE is due to a direct mitogenic effect on microvessel endothelial cells via yet to be elucidated cellular and molecular mechanisms. In the present study, we demonstrated the ability of 12(R)-HETrE to stimulate the growth of quiescent endothelial cells in a time- and concentration-dependent manner with a maximal effect at 0.1 nM. This effect was highly stereospecific since its enantiomer, 12(S)-HETrE, had no effect within the same concentration range. Northern blot analysis and transient transfection experiments with chloramphenicol acetyltransferase constructs of oncogene promoter regions demonstrated significant increases over control (0.5% fetal calf serum) in c-myc-, c-jun, and c-fos mRNA levels and expression in cells treated with 0.1 nM 12(R)-HETrE. Electrophoretic mobility shift assay of nuclear protein extracts from cells treated with 12(R)-HETrE with specific radiolabeled oligonucleotides corresponding to known transcriptional binding sites, including AP-1, AP-2, SP1, TRE, NF kappa B, TFIID, OKT1, CREB, CTF/NF1, and GRE demonstrated a markedly rapid and specific increase in the binding activity of NF kappa B and to a lesser extent, AP-1. No significant increase was observed in the binding of other transcription factors assayed as compared to control (untreated) cells. Since the protooncogenes (c-fos, c-jun, and c-myc) are immediate early response genes that are implicated in the process of cell proliferation and differentiation, and activation of certain transcription factors, in particular NF kappa B, is associated with the immediate response of the cell to an injury, we propose that 12(R)HETrE's mitogenic and angiogenic activities are mediated, in part, via the activation of NF kappa B and expression of these protooncogenes.
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PMID:Activation of nuclear factor kappa B and oncogene expression by 12(R)-hydroxyeicosatrienoic acid, an angiogenic factor in microvessel endothelial cells. 752 72

The cyclic AMP (cAMP)-inducible promoter from the rat lactate dehydrogenase A subunit gene (LDH A) is associated with a distal negative regulatory element (LDH-NRE) that represses inherent basal and cAMP-inducible promoter activity. The element is of dyad symmetry, consisting of a palindromic sequence with two half-sites, 5'-TCTTG-3'. It represses the expression of an LDH A/chloramphenicol acetyltransferase (CAT) reporter gene in a dose-dependent, orientation- and position-independent fashion, suggesting that it is a true silencer element. Uniquely, it selectively represses cAMP-responsive element (CRE)-dependent transcription but has no effect on promoters lacking a CRE sequence. The repressing action of LDH-NRE could be overcome by cotransfection with LDH A/CAT vector oligonucleotides containing either the LDH-NRE or CRE sequence. This suggests that the reversal of repression was caused by the removal of functional active, limiting transacting factors which associate with LDH-NRE as well as with CRE. Gel mobility shift, footprinting, and Southwestern blotting assays demonstrated the presence of a 69-kDa protein with specific binding activity for LDH-NRE. Additionally, gel supershift assays with anti-CREB and anti-Fos antibodies indicate the presence of CREB and Fos or antigenically closely related proteins with the LDH-NRE/protein complex. We suggest that the LDH-NRE and CRE modules functionally interact to achieve negative modulation of cAMP-responsive LDH A transcriptional activity.
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PMID:Identification of a silencer module which selectively represses cyclic AMP-responsive element-dependent gene expression. 756 66

The TAR element is a viral regulatory element extending from +1 to +60 in the human immunodeficiency virus type 1 (HIV-1) long terminal repeat, which is critical for activation by the transactivator protein Tat. Jurkat cell lines chronically infected with viruses containing HIV-1 TAR element mutations are extremely defective for both gene expression and replication. We previously demonstrated that viruses containing mutations of the TAR RNA stem, bulge, or loop structures have 200- to 5,000-fold-reduced levels of gene expression compared with lymphoid cells harboring wild-type virus. In this study, we characterized several Jurkat cell lines infected with TAR element mutant viruses which spontaneously produced culture supernatants with wild-type-like levels of reverse transcriptase activity. These viral supernatants were used to infect Jurkat cells, and following PCR amplification of the viral long terminal repeats, their DNA sequences were analyzed. This analysis demonstrated that revertant viruses isolated from these cell lines retained the original TAR mutations but also contained additional compensatory mutations within TAR. In gel retardation analysis, recombinant Tat protein bound to higher levels to in vitro-transcribed revertant TAR RNAs than the original TAR RNA mutants. Both the original and revertant TAR elements were inserted into both chloramphenicol acetyltransferase reporter and HIV-1 proviral constructs and assayed following transfection of Jurkat cells. Constructs containing revertant TAR element mutations were capable of strong activation by Tat in contrast to constructs containing the original TAR mutations. Analysis of the secondary structure of TAR RNA sequences suggested that TAR RNA structures which differed from that of wild-type TAR were still capable of strong activation in response to Tat. These results further define critical sequences in TAR RNA that are required for tat activation. In addition, since TAR structures with lower free energy that preserve the loop and bulge structures may be favored over fully formed TAR RNA with higher stable free energy, these results implicate nascent RNA rather than the fully formed TAR RNA structure as the target for tat activation.
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PMID:Human immunodeficiency virus type 1 TAR element revertant viruses define RNA structures required for efficient viral gene expression and replication. 760 59

Enhancer elements regulating the neuronal gene, tyrosine hydroxylase (TH), were identified in TH-expressing peripheral nervous system PATH and central nervous system CATH cell lines. Mutational analysis in which rat TH 5'-flanking sequences directed chloramphenicol acetyltransferase (CAT) reporter gene expression demonstrated that mutating the cyclic AMP response element (CRE) at -45 base pair reduced expression by 80-90%. A CRE linked to an enhancerless TH promoter fully supported expression. Cotransfection of a dominant-negative CREB protein reduced expression 50-60%, suggesting that the CRE is bound by CREB or a CREB dimerization partner. Although mutating the AP1/dyad (AD) element at -205 base pair only modestly reduced CAT levels, AD minimal enhancer constructs gave 45-80% of wild type expression when positioned at -91 or -95. However, in its native context at -205, the AD could not support expression. In contrast, a CRE, moved from its normal position at -45 to -206, gave full activity. These results indicate that the CRE is critical for TH transcription in central nervous system CATH and peripheral nervous system PATH cells, whereas the AD is less important and its enhancer activity is context-and/or position-dependent. These results represent the first attempts to map regulatory elements directing TH expression in central nervous system cell lines.
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PMID:The cyclic AMP response element directs tyrosine hydroxylase expression in catecholaminergic central and peripheral nervous system cell lines from transgenic mice. 766 71

We have determined by deletion analysis that the most proximal region of the Pdha-2 promoter between nucleotide position -187 to +22 harbors a transcriptionally active core. This "core" promoter directs high levels of CAT (chloramphenicol acetyltransferase) reporter gene transcription in HeLa cells. DNase I footprinting of the proximal promoter revealed four regions of protection. One of these contains the consensus sequence for the Sp1 binding site and another the ATF/CREB binding site. The cis-sequences of the remaining two protected regions (designated MEP-2 and MEP-3; Mouse E1 alpha Promoter site) show no apparent consensus homology with cis-elements of other known transcription factors. Results of electrophoretic mobility shift assays confirm that the ATF/CREB and MEP binding sites interact in a characteristic and specific manner with factors present in nuclei of both testis and somatic tissue. The factor which recognizes the MEP-3 motif appears to be ubiquitous, whereas the MEP-2-protein complexes were tissue-specific. Interestingly, formation of a complex involving MEP-2 and a putative testis-specific binding factor (tau-MEP-2BF) is first observed in the testis of 2-week-old mice, this correlates with the expression of Pdha-2. In contrast, the formation of complexes between the MEP-2 binding site and a somatic variant of MEP-2BF (sigma-MEP-2BF) decreases in the testis as spermatogenesis proceeds. Our results suggest that 1) the MEP-2 binding factors are temporally regulated during spermatogenesis, and 2) interactions involving these factors with the MEP-2 cis-element may be important for modulating Pdha-2 expression.
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PMID:Temporal and tissue-specific interactions involving novel transcription factors and the proximal promoter of the mouse Pdha-2 gene. 769 72

Transcriptional activation of the mouse c-fos gene by the adenovirus 243-amino-acid E1A protein requires a binding site for transcription factor YY1 located at -54 of the c-fos promoter. YY1 normally represses transcription of c-fos, and this repression depends on the presence of a cyclic AMP (cAMP) response element located immediately upstream of the -54 YY1 DNA-binding site. This finding suggested that the mechanism of transcriptional repression by YY1 might involve a direct interaction with members of the ATF/CREB family of transcription factors. In vitro and in vivo binding assays were used to demonstrate that YY1 can interact with ATF/CREB proteins, including CREB, ATF-2, ATFa1, ATFa2, and ATFa3. Structure-function analyses of YY1 and ATFa2 revealed that the C-terminal zinc finger domain of YY1 is necessary and sufficient for binding to ATFa2 and that the basic-leucine zipper region of ATFa2 is necessary and sufficient for binding to YY1. Overexpression of YY1 in HeLa cells resulted in repression of a mutant c-fos chloramphenicol acetyltransferase reporter that lacked binding sites for YY1, suggesting that repression can be triggered through protein-protein interactions with ATF/CREB family members. Consistent with this finding, repression was relieved upon removal of the upstream cAMP response element. These data support a model in which YY1 binds simultaneously to its own DNA-binding site in the c-fos promoter and also to adjacent DNA-bound ATF/CREB proteins in order to effect repression. They further suggest that the ATF/CREB-YY1 complex serves as a target for the adenovirus 243-amino-acid E1A protein.
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PMID:Transcriptional repression of the c-fos gene by YY1 is mediated by a direct interaction with ATF/CREB. 776 93


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