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)

A rat genomic clone containing 4.5 kilobases of 5'-flanking DNA and the first exon of the type II beta regulatory subunit (RII beta) of cAMP-dependent protein kinase was isolated, restriction mapped, and sequenced. The proximal 400-basepair promoter region was GC rich, lacked TATA/CAAT box motifs, and initiated transcription at multiple sites. Bandshifting and DNase-I footprinting experiments using this region of the RII beta promoter detected several related specific DNA-protein complexes formed using crude and fractionated nuclear extracts from rat ovary, brain, adrenal gland, and liver. All binding in these experiments mapped to a domain within the same region found to confer cAMP inducibility to a chloramphenicol acetyltransferase (CAT) reporter gene when transfected into primary cultures of rat granulosa cells. Although GC boxes (putative SP1-binding sites) and activator protein-2 (AP-2) elements were present in this functional region, and although expression vectors containing AP-2 sites conferred high levels of cAMP regulation of the CAT gene in cultured ovarian cells, neither the GC boxes nor the AP-2 sites were protected by footprint analyses or required for band shift activity of nuclear extract protein. These known regulatory elements, therefore, may be involved in functional activity of the RII beta promoter, but additional cis-acting DNA and trans-acting factors (yet to be characterized) also appear to interact with the functional promoter of the RII beta gene and regulate the hormone-specific expression of the A-kinase subunit in ovarian and neuronal cells.
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PMID:Identification and characterization of the GC-rich and cyclic adenosine 3',5'-monophosphate (cAMP)-inducible promoter of the type II beta cAMP-dependent protein kinase regulatory subunit gene. 131 46

Cyclic AMP regulates a variety of cellular responses through activation of the catalytic subunit of cAMP-dependent protein kinase. The cDNAs for two protein isoforms of the catalytic subunit, C alpha and C beta, were placed into expression vectors, and their ability to stimulate cAMP-dependent transcription of the human enkephalin promoter was examined in transiently transfected CV-1 cells. Expression vectors for C alpha and C beta that were directed by the human cytomegalovirus promoter produced up to 350- and 200-fold increases in chloramphenicol acetyltransferase activity, respectively, when cotransfected with the ENKAT-12 reporter plasmid. Transcriptional activation was shown to be dependent upon functional kinase activity by point mutations in catalytic subunit vectors which eliminated activation. Transcriptional activation by C alpha and C beta was eliminated when the cAMP response elements (CREs) were deleted from the native enkephalin promoter, but activation was recovered when this region was replaced with an oligonucleotide containing two copies of the somatostatin CRE consensus TGACGTCA. C alpha expression vectors were found to produce 2-fold greater transcriptional activation than C beta expression vectors. These results were most likely due to the cellular kinase activity produced by the catalytic subunit expression vectors and did not appear to be dependent on CRE motif or substrate specificity. In vitro mutagenesis indicates that neither C alpha nor C beta requires N-terminal myristylation for transcriptional activation, but threonine-197 is critical to subunit function.
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PMID:Regulation of the human enkephalin promoter by two isoforms of the catalytic subunit of cyclic adenosine 3',5'-monophosphate-dependent protein kinase. 165 33

Previous investigations have shown that CCAAT/enhancer binding protein (C/EBP) can function as a trans-activator of the promoters of several adipocyte-specific genes--i.e., the 422 adipose P2 (422/aP2), stearoyl-CoA desaturase 1 (SCD1), and glucose transporter 4 (GLUT4) genes, in 3T3-L1 mouse preadipocytes. We now describe a cell-free system prepared from nuclei of 3T3-L1 cells that carries out transcription directed by these promoters. To measure transcript formation, we employed a polymerase chain reaction-assisted analysis. Nuclear extract from 3T3-L1 adipocytes that express C/EBP supports a higher rate of transcription of chimeric 422(aP2) promoter-chloramphenicol acetyltransferase (CAT) reporter gene constructs than nuclear extract from preadipocytes that lack C/EBP. A competitor oligonucleotide containing the C/EBP binding site sequence and antibodies raised against C/EBP inhibit transcription directed by the 422(aP2) promoter. The factor limiting transcription by nuclear extract from preadipocytes appears to be C/EBP, since recombinant C/EBP (rC/EBP) markedly activates transcription of the 422(aP2) promoter-CAT gene with preadipocyte extract but not with adipocyte extract. rC/EBP also activates cell-free transcription of SCD1 promoter-CAT and GLUT4 promoter-CAT chimeric genes. Point mutations within the C/EBP binding site in the 422(aP2) promoter markedly decrease transcription activated by rC/EBP. Consistent with activation by cAMP of the 422(aP2) promoter in intact preadipocytes, cAMP-dependent protein kinase activates transcription through this promoter with the cell-free system, this effect being independent of C/EBP. Thus, regulation of transcription directed by the 422(aP2) promoter in the cell-free system resembles that which occurs in intact 3T3-L1 cells.
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PMID:Cell-free transcription directed by the 422 adipose P2 gene promoter: activation by the CCAAT/enhancer binding protein. 168 37

Since cAMP has a number of important effects regulating activity of adrenergic receptor pathways, we wondered if expression of the alpha 2A adrenergic receptor gene is regulated by this second messenger. We have examined the effects of a cAMP analog (Bt2cAMP) on the expression of alpha 2A adrenergic receptors in HT-29 cells. Bt2cAMP induced a 5.3 +/- 0.8-fold increase in alpha 2A receptor mRNA abundance as did forskolin and vasoactive intestinal polypeptide which both increase cAMP accumulation in these cells. Bt2cAMP increased alpha 2A receptor number up to 2.4 +/- 0.3-fold. The rate of alpha 2A receptor gene transcription increased 7.8 +/- 3.2-fold in cells treated with Bt2cAMP for 2 h; after 24 h, the transcription rate was 3.7 +/- 1.7-fold higher than in controls. The increased rate of transcription occurred in the presence of the protein synthesis inhibitor cycloheximide. The half life of the alpha 2A receptor mRNA in cells incubated with Bt2cAMP for 2 h increased by 1.5-fold but returned to the original value after exposure to Bt2cAMP for 24 h. The increased expression of alpha 2A receptors was associated with an increased efficacy of inhibition of cAMP accumulation mediated by the alpha 2 adrenergic agonist UK14304. Using a chloramphenicol acetyltransferase (CAT) reporter plasmid containing 5'-flanking sequences of the alpha 2A receptor gene, we found that co-transfection of JEG-3 cells with expression vectors containing cAMP-dependent protein kinase regulatory subunit cDNA with mutations at both cAMP binding sites inhibited basal and Bt2cAMP-stimulated expression of CAT activity. These results demonstrate that an alpha 2A adrenergic receptor gene is regulated by the second messenger cAMP via cAMP-dependent protein kinase, mainly by controlling the rate of transcription, which leads to an increased expression of these receptors.
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PMID:cAMP regulates transcription of the alpha 2A adrenergic receptor gene in HT-29 cells. 184 58

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-dependent protein kinase appears to play a role in cAMP-induced gene expression in mammalian cells. There exist two major types of cAMP-dependent protein kinase, type I and type II, which are distinguished by their regulatory subunits, RI and RII, respectively. We investigated the role of type I and type II protein kinase in the cAMP-induced gene expression by either stable or co-transfection of RI alpha, RII alpha, or RII beta gene in an expression vector together with somatostatin-chloramphenicol acetyltransferase (SS-CAT) fusion gene using a cAMP-unresponsive mutant pheochromocytoma cell line (A126-1B2). Introduction of the RII beta gene restored the capability of these cells to induce the SS-CAT gene expression in response to forskolin stimulus and induced a changed morphology which resembled that of wild type. The RII alpha gene also induced SS-CAT gene expression but to a lesser degree than that achieved by the RII beta gene, whereas the RI alpha gene had no effect. The induction of SS-CAT gene expression by the RII beta gene was specifically blocked by the 21-mer RII beta antisense oligodeoxynucleotide. These results show for the first time that type II but not type I regulatory subunit of cAMP-dependent protein kinase is essential for a cAMP-induced gene transcription.
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PMID:Type II regulatory subunit of protein kinase restores cAMP-dependent transcription in a cAMP-unresponsive cell line. 197 35

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 possible role of the catalytic subunit of the cAMP-dependent protein kinase in mediating the regulation of prolactin gene transcription has been investigated through the use of a synthetic gene encoding the heat-stable inhibitor of the cAMP-dependent protein kinase. To assess the effects of protein kinase inhibitor expression on cAMP induction of prolactin gene transcription, a marker gene containing the rat prolactin promoter and adjacent 5'-flanking sequences linked to the bacterial chloramphenicol acetyltransferase gene was cotransfected with a protein kinase inhibitor-expression vector. The results demonstrate that the protein kinase inhibitor-expression vector reduced both basal and cAMP-stimulated expression of the cotransfected prolactin-chloramphenicol acetyltransferase gene. A mutant protein kinase inhibitor-expression vector, coding for an inactive inhibitor protein, did not inhibit basal or cAMP-stimulated prolactin gene transcription. Furthermore, the protein kinase inhibitor-expression vector did not inhibit zinc induction of the metallothionein promoter. Analysis of protein kinase activity in transfected cells demonstrated that the protein kinase inhibitor expression vector reduced cAMP-dependent protein kinase activity but did not reduce protein kinase C activity. Nuclease protection experiments confirmed that the effects of the inhibitor vector involved changes in correctly initiated transcripts produced from the prolactin promoter. Surprisingly, the protein kinase inhibitor-expression vector reduced the effects of several different agents including epidermal growth factor, thyrotropin-releasing hormone, phorbol esters, and estrogen on prolactin gene expression to the same extent as it altered cAMP effects.
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PMID:A protein kinase inhibitor gene reduces both basal and multihormone-stimulated prolactin gene transcription. 253 42

Transfection of the cDNA encoding the activated c-raf-1 protein or addition of 12-O-tetradecanoylphorbol-13-acetate (TPA) or dibutyryl cAMP to NIH/3T3 cells activated the c-fos gene enhancer linked to the chloramphenicol acetyltransferase or luciferase reporter gene. Prolonged treatment of NIH/3T3 cells with phorbol 12,13-dibutyrate caused down-regulation of protein kinase C. In these cells, addition of TPA did not stimulate the c-fos gene enhancer any more, but transfection of the c-raf-1 cDNA or addition of dibutyryl cAMP still stimulated the c-fos gene enhancer to the same extent as those induced in the control cells. Transfection of the c-raf-1 cDNA or addition of TPA to NIH/3T3 cells stimulated the serum response element and TPA response element but not the cAMP response element. In contrast, addition of dibutyryl cAMP to NIH/3T3 cells stimulated the cAMP response element but not the serum response element or TPA response element. These results indicate that the activated c-raf-1 protein stimulates the serum response element and TPA response element in a manner independent of protein kinase C and cAMP-dependent protein kinase. Since the c-fos gene enhancer has been shown to contain the serum response element and cAMP response element, it is most likely that the c-raf-1 protein is involved in the regulation of c-fos gene expression through the serum response element.
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PMID:Activation of the serum response element and 12-O-tetradecanoylphorbol-13-acetate response element by the activated c-raf-1 protein in a manner independent of protein kinase C. 255 85


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