EC:2.3.1.28 - FACTA Search

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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)

The thyroid follicular cell requires elevated levels of cAMP for normal growth and optimal expression of the differentiated phenotype. The recent discovery of cAMP-regulated enhancer binding (CREB) proteins prompted us to analyze the possible role of these transcription factors in controlling thyroid cell growth and differentiated phenotype using the FRTL5 thyroid cell line as a model system. FRTL5 cells were stably transfected with an expression vector containing either the gene for wild type CREB (WTCREB) or a dominant negative mutant form of CREB, termed KCREB, which dimerizes with and inactivates endogenous CREB. Transfected clones were found to express the transfected KCREB and WTCREB mRNAs at higher levels than the endogenous CREB mRNA. Transient expression of a somatostatin-chloramphenicol acetyltransferase fusion gene in these clones demonstrated a 60% reduction of cAMP-regulated enhancer-dependent transcriptional activity in the KCREB transfected clones and wild type levels of activity in the WTCREB transfected clones. Parameters of growth (DNA synthesis and growth rate) and differentiation (iodide uptake and thyroglobulin mRNA levels) were then analyzed in the transfected clones. Transfection of WTCREB had no effect on any of the parameters examined in comparison to untransfected cells, presumably because CREB is already constitutively expressed at maximal levels in normal FRTL5 cells. However, cells expressing KCREB showed an 18-40% reduction in TSH-stimulated thymidine incorporation, a 31% increase in the length of the cell cycle, and a 4-fold reduction in TSH-stimulated iodide uptake in comparison with wild type cells or cells tranfected with wild type CREB.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:3',5'-cyclic adenosine monophosphate-regulated enhancer binding (CREB) activity is required for normal growth and differentiated phenotype in the FRTL5 thyroid follicular cell line. 133 55

To evaluate the function of the murine ornithine decarboxylase (ODC) gene promoter, expression of chimeric ODC-chloramphenicol acetyltransferase (CAT) plasmids (pODCcat) containing 1,658 nt of the ODC promoter sequence and its various 5'-deletions was analyzed. In transient expression assays with NIH/3T3 mouse cells, pODCcat constructs exhibited fairly strong promoter activity yielding CAT values up to 40% of those obtained with the viral promoter RSV. Interestingly, 5'-deletions of the pODCcat constructs increased the promoter activity over that achieved using the entire 1.6-kb 5'-flanking region, with the highest activity being observed with about 750 nt of the ODC promoter. This finding suggests that the distal part of the promoter includes DNA elements which are involved in repressing its function. The promoter region could be deleted down to the proximal 97 nt and still be stimulated by cAMP to the same extent as the 1.6-kb promoter. DNase I footprinting and methylation interference studies showed that a specific protein binds to the region from -59 to -39, which encompasses a DNA motif resembling the consensus cyclic AMP response element (CRE). However, comparative gel retardation and Southwestern blotting experiments with the putative ODC-CRE and the somatostatin promoter CRE indicated that the 70-kDa protein interacting with the CRE-like element of the ODC promoter is different from the well-characterized nuclear CRE-binding protein CREB.
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PMID:Protein-DNA interactions in the cAMP responsive promoter region of the murine ornithine decarboxylase gene. 165 Apr 55

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

The mechanism of regulatory expression of human cytochrome P-450scc gene by cAMP was investigated in a transient expression system using Y-1 cells (mouse adrenal tumor cell line) and a chimeric DNA composed of the structural gene for bacterial chloramphenicol acetyltransferase and the 5' flanking upstream sequence of the cytochrome P-450scc (cholesterol desmolase) gene which was revealed to contain a DNA element(s) responsive to cAMP [Inoue, H. et al. (1988) Eur. J. Biochem. 171, 435-440]. Introduction of deletions and point mutations in the upstream regulatory sequence demonstrated that three regions were mainly required for response to cAMP. These regions contained a short similar sequence. All of them have a 5-bp motif GTCAT (or ATGAC) in common, and have at least two motifs which conserve four out of five base pairs of the consensus sequence of the cAMP-responsive element (CRE), CGTCA (or TGACG). They are all apparently necessary for regulation by cAMP. Gel mobility shift assays suggested that a binding factor(s) to these regions was present in the nuclear extracts of Y-1 cells and adrenal cortex tissues and appeared to be different from the somatostatin CRE-binding protein. Deletion analysis also suggested that the region around -44 was essential to the basal transcriptional activity. This region shows some similarity to the CTF NF-1 binding site [Johnson and McKnight (1989) Annu. Rev. Biochem. 58, 799-839].
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PMID:Structures of regulatory regions in the human cytochrome P-450scc (desmolase) gene. 184 89

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

A cAMP response element (CRE) has been identified in the proximal 5'-flanking region of the rat glucagon gene, and activation of the cAMP-dependent pathway in fetal rat intestinal cells leads to an increase in the levels of glucagon mRNA transcripts. In contrast, the human glucagon gene does not contain a similar CRE, and the results of studies using immortalized rat and hamster islet cell lines have suggested that glucagon gene expression may not be regulated by cAMP. To reconcile these observations, we have studied the control of glucagon gene expression. Incubation of primary rat islet cell cultures with forskolin in the presence of low (0.5 g/liter) or high (2.0 g/L) glucose resulted in a 2- to 3-fold increase in the levels of glucagon mRNA transcripts. Forskolin also stimulated the secretion and synthesis of immunoreactive glucagon. The importance of the protein kinase-A-dependent pathway in the regulation of glucagon gene expression was also examined in hamster islet InR1-G9 cells. Cotransfection of a glucagon-chloramphenicol acetyltransferase (CAT) fusion gene containing the glucagon CRE and a cDNA encoding the catalytic subunit of protein kinase-A resulted in stimulation of glucagon-CAT activity in hamster islet cells. Catalytic subunit cotransfection also activated somatostatin-CAT, but no activation of RSVCAT was detected. The results of these experiments suggest that the rat glucagon gene is regulated by a protein kinase-A-dependent pathway in the endocrine pancreas.
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PMID:The rat glucagon gene is regulated by a protein kinase A-dependent pathway in pancreatic islet cells. 198 32

The genome of bovine leukemia virus (BLV) encodes a transcriptional trans-activator p38tax (also referred to as pXBL-I) which amplifies the virus gene expression driven by its long terminal repeat (LTR). It was proposed that activation of cellular gene expression by p38tax might be involved in the mechanism of B-cell transformation caused in vivo by BLV infection. Here, we report that the U3 region of BLV LTR contains multiple regulatory elements responsive to p38tax. A core element composing the p38tax-inducible U3 structure is suggested to be a heptanucleotide motif of 5'TGACGTCA3', the consensus sequence proposed for a cAMP-responsive element (CRE) and for the binding sites of a cellular transcription factor (ATF). Adenovirus-5 E3 and E4, c-fos and somatostatin regulatory regions containing CRE/ATF-element exhibited responsiveness to p38tax in a chloramphenicol acetyltransferase transient expression assay. These suggest that in BLV-infected cells, cellular gene expression might be induced abnormally by the virus trans-activator through ATF or ATF-like factors.
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PMID:Bovine leukemia virus trans-activator p38tax activates heterologous promoters with a common sequence known as a cAMP-responsive element or the binding site of a cellular transcription factor ATF. 254 18

Regulation of GH gene expression by GRF involves cAMP as a second messenger. We have demonstrated that a 500-basepair fragment of the human GH (hGH) gene 5' flanking region can confer cAMP inducibility upon the chloramphenicol acetyltransferase transcription unit in transient transfections of rat pituitary tumor cells treated with forskolin, an activator of adenyl cyclase. The same hGH construct is not induced by forskolin in nonpituitary-derived cells. Experiments with hGH deletion constructs reveal that binding sites for transcription factor AP-2 and the pituitary-specific factor GHF-1 are not required for forskolin stimulation, but that GHF-1 may potentiate the effect. RNA analyses reveal that forskolin also stimulates accumulation of transcripts initiated at the hGH promoter. Other agents that elevate cAMP levels also stimulate hGH expression. Since the hGH 5' flanking region contains no sequences homologous to the cAMP-responsive element of the somatostatin gene, and the AP-2 sites do not appear to be required for the forskolin response, these results suggest that a novel cAMP-responsive element exists within 82 basepairs upstream from the transcriptional start of the hGH gene and that hGH regulation by GRF may involve interaction between a tissue-specific element and a cAMP-inducible element.
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PMID:Induction of human growth hormone promoter activity by the adenosine 3',5'-monophosphate pathway involves a novel responsive element. 254 55

The regulation of gastrin gene transcription was studied in GH4 pituitary cells transfected with constructs comprised of the first exon of the human gastrin gene and various lengths of 5' regulatory sequences ligated upstream of the reporter gene chloramphenicol acetyltransferase. Gastrin reporter gene activity in GH4 cells was equal to the activity of a reporter gene transcribed from the endogenously expressed growth hormone promoter. The effect of a variety of peptides on gastrin gene transcription including epidermal growth factor (normally present in the gastric lumen), gastrin-releasing peptide, vasoactive intestinal peptide, and somatostatin (present in gastric nerves) was assessed. Epidermal growth factor increased the rate of gastrin transcription almost 3-fold, whereas thyrotropin-releasing hormone and vasoactive intestinal peptide increased gastrin transcription 2- and 1.5-fold, respectively. Gastrin-releasing peptide, a peptide that strongly stimulates gastrin release, weakly increased gastrin transcription (1.3-fold). Somatostatin inhibited the increase in gastrin transcription induced by epidermal growth factor, thyrotropin-releasing hormone, and vasoactive intestinal peptide. Constructs containing various lengths of 5' regulatory sequences defined a response element -40 to -82 base pairs (bp) 5' to the transcription initiation site. This 40-bp sequence contains Sp1 and AP2 binding sites, which suggests that epidermal growth factor and thyrotropin-releasing hormone stimulate gastrin gene transcription through transcription factors that bind to Sp1 and/or AP2 motifs.
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PMID:Regulation of the gastrin promoter by epidermal growth factor and neuropeptides. 256 64

Somatostatin is a peptide synthesized in the pancreatic islets, nervous system, gastrointestinal tract, and thyroid gland. Factors that control islet cell-specific expression of the somatostatin gene were analyzed by expression of fusion genes consisting of 5' rat somatostatin gene sequences linked to coding sequences of the receptor genes, bacterial chloramphenicol acetyltransferase, and human growth hormone. Fusion genes containing 900 and 250 base pairs (bp) of 5'-flanking DNA were preferentially expressed at 5-10-fold higher levels in somatostatin-producing islet cell lines, as compared with islet cell lines that produced insulin and glucagon, and in three non-islet cell lines. A deletional mutation consisting of only 65 bp of 5'-flanking sequence of the rat somatostatin gene expressed in all islet cell lines but not in non-islet lines, indicating the existence of a negative-acting islet cell-specific element located between nucleotides -250 and -65. The 65-bp sequence contains the octameric cAMP-responsive enhancer (CRE) TGACGTCA (nucleotides -48 to -41). Fine mapping of sequences responsible for islet-specific expression by substitution of synthetic oligonucleotide cassettes revealed full retention of expression by deletion to nucleotides -48 and complete loss of expression at nucleotides -42 of the CRE. Substitution of the 9 bp adjacent 3' to the CRE of the somatostatin gene (nucleotides -40 to -32) with the corresponding sequence located 3' to the CRE of the glucagon gene abolished expression. By gel mobility shift and DNaseI footprinting analyses, proteins in extracts of islet cells bound to the 24 bp including the CRE and downstream adjacent 9 bp (nucleotides -58 to -35). An additional upstream region of DNA was protected from DNase I digestion (nucleotides -110 to -80). Proteins from non-islet cells bound to the region from nucleotides -58 to -35, but patterns of DNase I protection differed from those using proteins from islet cells. These observations indicate that several DNA-binding proteins interact with cis-acting elements located between 35 and 58 bp upstream of the transcriptional start site of the rat somatostatin gene to determine islet cell-specific gene expression. CRE-binding protein(s) is ubiquitous among phenotypically different cells, and expression of the somatostatin gene in non-somatostatin-producing islet cells appears to be inhibited by a negative-acting element located upstream of the CRE.
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PMID:Somatostatin gene expression in pancreatic islet cells is directed by cell-specific DNA control elements and DNA-binding proteins. 256 13

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