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)

A 203-base-pair sequence 5' of the latency-associated transcripts (LATs) of herpes simplex virus type 1 contains a 7-base consensus sequence TGCGTCA that is identical to the cAMP-response element of the proenkephalin gene. This consensus sequence is at -38 relative to the putative 5' end of the LATs with a TATA box at the -24 position. In transient chloramphenicol acetyltransferase assays in rat pheochromocytoma (PC12) cells, this enhancer region stimulated gene expression up to 3-fold in the presence of dibutyryl cAMP, forskolin, nerve growth factor, or phorbol 12-myristate 13-acetate. Mutation of the cAMP-response element to TGCG-CAA resulted in a 4-fold reduction of basal activity and a complete loss of inducible stimulation. In DNA gel retardation assays, purified cAMP-response element-binding protein and a nuclear protein from PC12 cells were shown to bind specifically to this element. Furthermore, it was demonstrated that the reactivation of wild-type herpes simplex virus type 1 from dissociated latently infected murine trigeminal ganglia was significantly accelerated (P less than 0.005) by the addition of cAMP analogs or adenylate cyclase activators. However, these reagents did not accelerate reactivation of a deletion mutant that lacks the putative cAMP-response element-containing promoter region, transcriptional start site, and 1015 base pairs of the LATs. These studies demonstrate that the promoter region of the LATs contains a functional cAMP-response element and that expression of the LATs is likely controlled by second messenger signal transduction and imply a role for cAMP in triggering viral reactivation.
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PMID:The promoter of the latency-associated transcripts of herpes simplex virus type 1 contains a functional cAMP-response element: role of the latency-associated transcripts and cAMP in reactivation of viral latency. 184 42

H2O2, like other oxidants, is known to act as a mitogen at low concentrations in resting Balb/3T3 or mouse epidermal JB6 cells. We described previously that H2O2 induces some early response genes in Balb/3T3 cells. We extended these observations using another cell line, MC3T3 (mouse osteoblastic) cells by examination of transcriptional activity of these genes and by using inhibitors of protein kinases. H2O2 increased the expressions of c-fos, c-jun, egr-1 and JE genes which are known to be early response genes and are induced by mitogenic stimuli in many types of cells. Exogenous addition of H2O2 increased the mRNA levels of these genes, the kinetics of increase being similar to those of their inductions by a phorbol ester or serum. Nuclear run-on transcription showed that this induction occurred at the transcriptional level. H2O2 at 0.1-0.2 mM induced maximal expressions of c-fos and c-jun, whereas 0.3 mM H2O2 was required for induction of stress-induced heme oxygenase mRNA. The inductions of c-fos and c-jun were inhibited by 50 microM H7, a protein kinase inhibitor that is relatively specific for protein kinase C, but were not affected by H9, relatively specific for cAMP-dependent protein kinase. In cells pretreated with 12-O-tetradecanoylphorbol 13-acetate, however, in which protein kinase was supposed to be downregulated, H2O2 induced c-fos and heme oxygenase as efficiently as in untreated cells. H2O2 did not increase the phosphorylation of p80 protein, which is known to be a substrate for protein kinase C. Thus, H2O2 seemed to induce c-fos and c-jun by activating protein kinases distinct from protein kinase C. Activity of the chloramphenicol acetyltransferase gene under control of the serum-response element of human c-fos genes was increased by H2O2 treatment, whereas that under control of cAMP-response element was not affected. These results indicate that the inductions by H2O2 of c-fos and possibly other early response genes are mediated through activation of the serum-response element in their enhancer.
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PMID:Transcriptional activation of early-response genes by hydrogen peroxide in a mouse osteoblastic cell line. 191 80

cAMP regulates the expression of several genes by activation of a promoter consensus sequence which functions as a cAMP-response element. Evidence indicated that this is accomplished via cAMP dissociation of cAMP-dependent protein kinase into its regulatory (R) and catalytic (C) subunits. Our investigations of the role of these two subunits in gene expression provide direct and quantitative evidence that the C subunit is required for cAMP stimulation of the cAMP-response element in the vasoactive-intestinal-peptide gene in rat pheochromocytoma cells. After cotransfection of a metallothionein-regulated C-subunit expression vector (pCEV) and a vasoactive-intestinal-peptide--chloramphenicol acetyltransferase construct containing a cAMP-response element, we could demonstrate expression of transfected C-alpha-subunit mRNA (truncated size 1.7 kb) by Northern blot and a concentration-dependent C subunit stimulation of chloramphenicol acetyltransferase activity. Basal activity was stimulated 12- and 50-fold by pCEV (30 micrograms), in the absence and presence, respectively, of Zn2+. Metallothionein-regulated expression of C was demonstrated by results that showed a 2-4-fold increase in chloramphenicol acetyltransferase activity in the presence versus the absence of 90 microM Zn2+. In contrast, overexpression of the R-II beta regulatory subunit did not stimulate chloramphenicol acetyltransferase activity, and R-II beta transfected together with C (ratio 2:1 and 4:1) inhibited the stimulation by the C subunit 70% and 90% respectively. Our results indicate that transfection of cAMP-dependent protein kinase subunits results in functional expression of both C-alpha and R-II beta subunits. Expression of the C subunit mediated cAMP-regulated gene expression but this expression could be inhibited by cotransfected R-II beta subunit, indicating intracellular reconstitution of the inactive holoenzyme of cAMP-dependent protein kinase.
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PMID:Regulation of gene expression by transfected subunits of cAMP-dependent protein kinase. 215 96

12-O-Tetradecanoylphorbol-13-acetate (TPA) activated the c-fos gene enhancer linked to the chloramphenicol acetyltransferase or luciferase reporter gene in the wild type PC-12 cells but not in the variant PC-12 cells that originated from the wild type cells. Transfection of the c-Ha-rasval12 complementary DNA (cDNA) or addition of dibutyryl cAMP to the wild type PC-12 cells as well as to the variant PC-12 cells activated the c-fos gene enhancer. Prolonged treatment of the wild type PC-12 cells with phorbol-12,13-dibutyrate caused down-regulation of protein kinase C. In these cells, TPA did not stimulate the c-fos gene enhancer any more, but transfection of the c-Ha-rasval12 cDNA still stimulated the c-fos gene enhancer to the same extent as induced in the control cells. Transfection of the c-Ha-rasval12 cDNA or addition of TPA to the wild type PC-12 cells stimulated the serum-response element but not the cAMP-response element. Dibutyryl cAMP stimulated both the serum-response element and the cAMP-response element in the wild type PC-12 cells. These results indicate that the c-Ha-rasval12 protein activates the serum-response element, but not the cAMP-response element in the c-fos gene enhancer, and that the signal pathway from the c-Ha-rasval12 protein to the c-fos serum-response element is independent of protein kinase C and cAMP-dependent protein kinase.
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PMID:Activation of the c-fos serum-response element by the activated c-Ha-ras protein in a manner independent of protein kinase C and cAMP-dependent protein kinase. 240 11

The human chorionic gonadotropin-alpha (CG-alpha) gene is transcriptionally activated by cAMP. Sequencing the CG-alpha 5'-flanking region identified two copies of a palindrome, 5'-TGACGTCA-3', homologous to sequences in other cAMP-responsive genes. The two palindromes are contained within two identical 18-base pair (bp) sequences arranged as adjacent direct repeats. One or two synthetic copies of the 18-bp sequences were inserted into plasmids containing either the CG-alpha promoter or the SV40 promoter directing transcription of the chloramphenicol acetyltransferase gene. The 36-bp (double) element markedly enhanced chloramphenicol acetyltransferase activity in placental choriocarcinoma (JEG-3) cells when inserted in either orientation both 5' to the cap site or 3' of the coding sequence, thus defining it as an enhancer. Moreover, 8-br-cAMP stimulated the enhancer activity 30-40-fold. A single 18-bp element also stimulated chloramphenicol acetyltransferase activity, although 5-fold less than the double element, but still imparted a 35-fold transcriptional cAMP responsivity. The enhancer activates its homologous promoter much more efficiently than the SV40 promoter in JEG-3 cells. The alpha-promoter is not nearly as receptive to activation by the enhancer in baby hamster kidney fibroblasts, whereas the more modest enhancement of the SV40 promoter is less cell-specific. These studies suggest that the interaction of a 36-bp enhancer-like element with the homologous promoter represents part of the mechanism of cell-specific expression of the CG-alpha gene and that the enhancer is co-localized with a highly effective cAMP-response element.
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PMID:Cyclic AMP responsiveness of human gonadotropin-alpha gene transcription is directed by a repeated 18-base pair enhancer. Alpha-promoter receptivity to the enhancer confers cell-preferential expression. 304 Jul 32

In order to identify the mechanism by which cyclic AMP stimulates expression of the human renin gene (REN), the effect of forskolin was tested in transient expression analyses of REN 5'-flanking DNA-chloramphenicol acetyltransferase (CAT) reporter gene constructs in secondary cultures of human chorio-decidual cells, a major site of renin synthesis. Forskolin induced a mean 5-fold stimulation which was localized to DNA in the region -249 to -162 with respect to the transcription start site (+1). Such DNA also mediated a response to forskolin in heterologous (HSV thymidine kinase) promoter constructs. Strong cAMP-response element (CRE) homology at -222 to -218 resembled the target for members of the CRE binding protein (CREB) family. Gel shift assays demonstrated similarly migrating nucleoprotein complexes for oligonucleotides containing the putative REN CRE as for a canonical CRE, in chorio-decidual, JEG-3 and HeLa nuclear extracts. Mutation of residues critical for CREB attachment reduced binding. In conclusion, a CRE was identified at -222 to -218 that appears critical for cAMP-induced human renin gene transcription.
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PMID:Identification of cyclic AMP response element in the human renin gene. 816

Osteocalcin (OC), a bone specific protein expressed during differentiation and mineralization of the bone extracellular matrix, is down-regulated upon treatment with transforming growth factor (TGF)-beta 1. To address the potential role of OC gene expression in relation to TGF-beta 1 regulation of bone formation and resorption, we examined the transcriptional activity of the rat OC promoter after TGF-beta 1 treatment. 5' deletion analysis of rat OC promoter-chloramphenicol acetyltransferase constructs demonstrated that TGF-beta 1 treatment repressed chloramphenicol acetyltransferase activity by 2.4-fold in transient transfections of ROS 17/2.8 cells. A 29-bp region between -162 and -134 identified as the TGF-beta 1 response domain, conferred TGF-beta 1 responsiveness to the -108 to +24 rat OC basal promoter in an orientation dependent manner. Mutation of an activator protein-1/cAMP-response element-like motif (- 146 to -139) abolished TGF-beta 1 responsiveness of the construct. In vitro gel-mobility shift and competition assays using wild-type and mutated oligonucleotides and antibodies indicate that Fra-2, a Fos related transcription factor, binds to this motif. We show that Fra-2 is an activator of the OC promoter, and TGF-beta 1 inhibits this activation. Our results demonstrate that Fra-2 is hyperphosphorylated upon TGF-beta 1 treatment of ROS 17/2.8 cells. Additionally, treatment of cells with a staurosporine protein kinase C inhibitor abrogates TGF-beta 1 mediated down-regulation of the OC promoter activity. Together, these results demonstrate that TGF-beta 1 responsiveness of the rat osteocalcin gene in ROS 17/2.8 cells is mediated through an activator protein-1 like cis-acting element that interacts with Fra-2. Furthermore, our results are consistent with a critical role for TGF-beta 1 induced phosphorylation of Fra-2 in the repression of OC gene transcription.
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PMID:Transforming growth factor-beta 1 responsiveness of the rat osteocalcin gene is mediated by an activator protein-1 binding site. 861 40

The onset of metabolic acidosis causes an increased transcription of the renal phosphoenolpyruvate carboxykinase (PCK) gene. When transgenic mice carrying a bovine growth hormone (bGH) gene driven by the -460 to +73 segment of the PCK promoter were made chronically acidotic, the bGH mRNA was increased twofold after 4 days. Confluent and well-differentiated cultures of LLC-PK1-F+ cells exhibit a 2.5-fold increase in PCK mRNA when transferred to acidic media (pH 6.9, 10 mM HCO3-) for 16 h. Confluent cultures transfected with PCK-490 CAT exhibit an increase (3.5-fold) in chloramphenicol acetyltransferase (CAT) activity when shifted to acidic medium for 48 h. Mutation or deletion of the P2 element causes a four- to fivefold decrease in basal CAT activity but does not affect the pH response. In contrast, mutations of the P3(II) element or the CRE-1 cAMP-response element have little effect on basal activity but cause a 50% decrease in the pH response. Other deletions or mutations have little effect on either activity. Thus changes in the activity or levels of the protein(s) in the renal proximal tubule that binds to the P3(II) and CRE-1 elements may mediate increased transcription of the PCK gene during metabolic acidosis.
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PMID:Promoter elements that mediate the pH response of PCK mRNA in LLC-PK1-F+ cells. 877 Jan 65

We have isolated genomic recombinants containing the complete gene coding for the rabbit translationally controlled tumor protein (TCTP), also known as histamine-releasing factor (HRF) P23. The gene is organized into five introns and six exons and its total length amounts to 3819 nucleotides. All intron/exon boundaries are in accordance with the GT/AG rule. Transcription of the gene generates two mRNAs of 843 and 1163 nucleotides differing in the length of their 3'-untranslated regions. They are formed by alternative polyadenylation. The transcription initiation site has been determined by comparison of sequences of the gene and several processed TCTP pseudogenes. The full-length 5'-untranslated region comprises 116 nucleotides and starts with an oligopyrimidine tract important for translational regulation. Additionally 1.2 kb of the 5'-flanking promoter region has been sequenced. The promoter contains a TATA box at -30 and potential binding sites for transcription factors such as stimulating protein 1 (Sp1), nuclear factor 1 (NF1), activator protein 1 (AP1), c-Ets1, cAMP-response element (CP2), myeloid-specific zinc finger protein 1 (MZF1) and others. For functional analysis 5'-flanking sequences up to -918 were fused to the chloramphenicol acetyltransferase (CAT) gene and tested using a rabbit aortic smooth-muscle cell line by cell transfection and CAT assays. The results confirm that the analyzed gene is the actively transcribed TCTP gene.
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PMID:Structure of the promoter and complete sequence of the gene coding for the rabbit translationally controlled tumor protein (TCTP) P23. 979 3

The glucagon-stimulated transcription of the cytosolic phosphoenolpyruvate carboxykinase-1 (PCK1) gene is mediated by cAMP and positively modulated by oxygen in primary hepatocytes. Rat hepatocytes were transfected with constructs containing the first 2500, 493 or 281 bp of the PCK1 5'-flanking region in front of the chloramphenicol acetyltransferase (CAT) reporter gene. With all three constructs glucagon induced CAT activity with decreasing efficiency maximally under arterial pO2 and to about 65% under venous pO2. Rat hepatocytes were then transfected with constructs containing the first 493 bp of the PCK1 5'-flanking region in front of the luciferase (LUC) reporter gene, which were block-mutated at the CRE1 (cAMP-response element-1; -93/-86), putative CRE2 (-146/-139), promoter element (P) 1 (-118/-104), P2 (-193/-181) or P4 (-291/-273) sites. Glucagon induced LUC activity strongly when the P1 and P2 sites were mutated and weakly when the P4 site was mutated; induction of the P1, P2 and P4 mutants was positively modulated by the pO2. Glucagon also induced LUC activity strongly when the putative CRE2 site was altered; however, induction of the CRE2 mutant was not modulated by the pO2. Glucagon did not induce LUC activity when the CRE1 site was modified. These experiments suggested that the CRE1 but not the putative CRE2 was an essential site necessary for the cAMP-mediated PCK1 gene activation by glucagon and that the putative CRE2 site was involved in the oxygen-dependent modulation of PCK1 gene activation. To confirm these conclusions rat hepatocytes were transfected with simian virus 40 (SV40)-promoter-driven LUC-gene constructs containing three CRE1 sequences (-95/-84), three CRE2 sequences (-148/-137) or three CRE1 sequences plus two CRE2 sequences of the PCK1 gene in front of the SV40 promoter. Glucagon induced LUC activity markedly when the CRE1, but not when the CRE2, sites were in front of the SV40-LUC gene; however, induction of the (CRE1)3SV40-LUC constructs was not modulated by the pO2. Glucagon also induced LUC activity very strongly when the CRE1 and CRE2 sites were combined; induction of the (CRE1)3(CRE2)2SV40-LUC constructs was positively modulated by the pO2. These findings corroborated that sequences of the putative CRE2 site were responsible for the modulation by oxygen of the CRE1-dependent induction by glucagon of PCK1 gene transcription.
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PMID:Identification of an oxygen-responsive element in the 5'-flanking sequence of the rat cytosolic phosphoenolpyruvate carboxykinase-1 gene, modulating its glucagon-dependent activation. 1021 94


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