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 minimal promoter of rat thyroglobulin (TG) gene (168 bp) was fused with bacterial chloramphenicol acetyltransferase (CAT) gene, and transgenic mice carrying the TGCAT gene were produced. The minimal promoter is sufficient for thyroid-specific and hormone-dependent expression of TGCAT in transgenic mice. Deletion of a region between -128 and -92 bp (TGII), which is not required for the expression of TGCAT in transient expression assays but whose sequence is most extensively conserved among different species, appears to decrease frequency of the expression of TGCAT in transgenic mice. However, the same deletion apparently has no significant effect on TG promoter activity in stably transformed rat FRTL-5 cells.
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PMID:Thyroid-specific and hormone-dependent expression of rat thyroglobulin promoter fused with bacterial chloramphenicol acetyltransferase gene in transgenic mice. 130 97

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

Transcription of the thyroglobulin (TG) gene is stimulated by TSH via cAMP. We have characterized the sequence elements responsible for the hormone-dependent expression of TG gene in rat thyroid FRTL-5 cells using internal deletion and linker-scanning mutants of the minimal TG promoter (-170 basepairs) fused with the bacterial chloramphenicol acetyltransferase reporter gene. The TG gene is regulated by at least two regions located between -165 and -140 bp (TG-III) and between -95 and -65 bp (TG-I) from the transcription initiation site. The intervening region can be deleted without significant effect on the promoter activity. Either of the two regions alone does not promote hormone-dependent transcription. A DNase footprinting assay showed that TG-I and TG-III are the principal protein-binding sites and that the proteins interacting with these two regions are induced by TSH or cAMP. These results suggest that the hormone-dependent expression of TG gene may be achieved by cooperative interaction of the proteins bound to TG-I and TG-III.
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PMID:The deoxyribonucleic acid regions involved in the hormonal regulation of thyroglobulin gene expression. 184 93

Transcription of the thyroglobulin (TG) gene in rat thyroid FRTL-5 cells is stimulated by two hormones, TSH and insulin-like growth factor-I (IGF-I). The effect of TSH is mimicked by cAMP. Promoter regions of the rat TG gene responsible for hormonal action as well as the nuclear regulatory proteins that interact with these regions were characterized. Minimal promoter that responds to both hormones has been found to be up to -171 basepairs from the transcription initiation site. In DNase-I footprinting analysis, nuclear extracts from cells treated with either of these hormones protected the same two major regions within the minimal promoter. Mutations in these two regions abolished basal, TSH-stimulated, as well as IGF-I-stimulated expression of the fused reporter gene chloramphenicol acetyltransferase. DNA mobility shift assay revealed that cAMP and IGF-I induce binding of similar nuclear proteins to these promoter regions. These results suggest that rat TG gene transcription is regulated by the convergent action of two distinct signaling pathways, possibly involving similar DNA-binding nuclear proteins and regulatory sequences of the TG gene promoter.
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PMID:Similar nuclear factors mediate stimulation of rat thyroglobulin gene transcription by thyrotropin and insulin-like growth factor-I. 196 92

Fusion genes containing 1600 or 2000 base pairs of the bovine thyroglobulin gene 5' flanking region and the chloramphenicol acetyltransferase (CAT) coding sequence were constructed and used to generate transgenic mice. Altogether, 24 independent transgenic lines were obtained, and the expression of the transgene was assayed by measuring the CAT activity in different tissues. Depending on the transgenic lines, the fusion gene was either silent in all tissues or specifically expressed in the thyroid. The level of expression was found to be highly variable from one line to another and to be regulated by thyrotropin in a manner similar to the natural thyroglobulin gene. The methylation status of the integrated DNA was tested by digestion of DNA extracted from thyroid and other tissues with the isochizomers Msp I and Hpa II. It was found that one of the Hpa II sites was demethylated specifically in the thyroid.
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PMID:Tissue-specific expression and methylation of a thyroglobulin-chloramphenicol acetyltransferase fusion gene in transgenic mice. 220 Oct 22

We have fused a 900 base pair long DNA segment containing the transcriptional start site of the rat thyroglobulin (Tg) gene to the bacterial gene for chloramphenicol acetyltransferase (cat). The fusion gene has been introduced into three different cell lines derived from the rat thyroid gland and into a rat liver cell line. Expression of the fusion gene was detected only in the one thyroid cell line that is able to express the endogenous Tg gene. The minimum DNA sequence required for the cell type specific expression was determined by deletion analysis; it extends 170 nucleotides upstream of the transcription initiation site. The Tg promoter contains a readily detectable binding sites for a factor present in salt extracts of thyroid cell nuclei. This binding site is not recognized by the nuclear extracts of any other cell type that we have tested, suggesting that it may help mediate the cell type specific expression of the Tg gene.
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PMID:A cell type specific factor recognizes the rat thyroglobulin promoter. 367 Oct 79

A thyroid transcription factor-1 (TTF-1)-binding element in the rat TSH receptor (TSHR) promoter, between -189 and -175 basepairs (bp), is important for both thyroid-specific expression and thyroid-specific TSH/cAMP autoregulation of the TSHR. The identification of an up-stream TTF-1-binding site and its relationship to the function of the down-stream TTF-1 element are the subjects of this report. Sequence analysis identifies a potential TTF-1 site at -878 bp; deoxyribonuclease-I footprinting shows that the -881 to -866 bp region is protected by recombinant TTF-1 protein and by nuclear extracts from FRTL-5 thyroid cells that contain TTF-1, but not by extracts from nonfunctioning FRT thyroid or Buffalo rat liver (BRL) cells, which have no TTF-1, or by Pax-8. FRTL-5, but not FRT or BRL cell nuclear extracts, form a specific protein-DNA complex with this region in gel mobility shift analyses; its formation is prevented by TTF-1-binding elements from the thyroglobulin promoter. The upstream TTF-1 site acts as an enhancer when coupled to a heterologous simian virus-40 promoter-chloramphenicol acetyltransferase (CAT) chimera and transfected into FRTL-5 thyroid cells. There is a greater increase, 3-vs. 2-fold (P < 0.05), when TSHR promoter-CAT chimeras, which contain the up-stream TTF-1 element, pTRCAT5'-907 or pTRCAT5'-886, as opposed to those in which it is deleted, pTRCAT5'-907 delta USTTF-1, are transfected into FRTL-5 cells or cotransfected with a TTF-1 expression vector into BRL cells, which have no endogenous TTF-1. The TTF-1-dependent activity of pTRCAT5'-907 delta USTTF-1 is the same as that of the minimal promoter, -220 to -39 bp, containing only the down-stream TTF-1 site in both cells. Transfection of chimeric TSHR-CAT plasmids with the down- and/or up-stream TTF-1 site deleted reveals that the down-stream TTF-1 element functions in the absence of the up-stream element, but function of the up-stream site requires the down-stream TTF-1 element. Like the down-stream TSHR TTF-1-binding site, the up-stream TTF-1 site is different from TTF-1 sites in the thyroglobulin and thyroid peroxidase promoter, in that it does not interact with Pax-8.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Characterization of an up-stream thyroid transcription factor-1-binding site in the thyrotropin receptor promoter. 782 40

By transfecting TSH receptor (TSHR)-chloramphenicol acetyltransferase (CAT) chimeras into FRTL-5 thyroid cells in the presence or absence of insulin, we identify an insulin-responsive element (IRE) between -220 and -190 bp of the TSHR 5'-flanking region. The region between -220 and -192 bp is footprinted by nuclear extracts from FRTL-5 cells and, coupled to a heterologous SV40-CAT chimera, an oligonucleotide containing the protected region induces insulin responsiveness in FRTL-5 cells. FRTL-5 cell nuclear extracts form two groups of protein-DNA complexes, A and B, in gel shift assays using an oligonucleotide having the protected sequence; mutation data indicate only the A complexes are increased by exposure of FRTL-5 cells to insulin; TSH can also increase A complex formation, but the TSH action is insulin-dependent. The nuclear factor(s) in FRTL-5 cells that interact with the TSHR IRE are distinct from thyroid transcription factor-2 (TTF-2), the insulin regulatory factor of the thyroglobulin promoter, as evidenced by the absence of competition in gel shift assays; there is no apparent sequence similarity of this region with other known IREs. The IRE is immediately upstream of a thyroid transcription factor-1 (TTF-1) binding site, -189 to -175 bp; mutation of the TTF-1 site causing a loss of TTF-1 activity also causes a loss of insulin responsiveness when the TSHR-CAT chimera at -220 bp is transfected into FRTL-5 cells and an altered IRE footprint by nuclear extracts. The TSHR appears, therefore, to contain a novel IRE whose activity depends at least in part on TTF-1, a thyroid-specific, homeodomain-containing transcription factor important both for thyroid-specific TSHR gene expression and TSH/cAMP autoregulation of the TSHR.
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PMID:Identification of a novel insulin-responsive element in the rat thyrotropin receptor promoter. 798 66

The chimeric chloramphenicol acetyltransferase (CAT) construct, pTRCAT5'-199, containing the TSH receptor (TSHR) minimal promoter, -199 to -39 base pairs (bp), exhibits the thyroid specificity and TSH/cAMP autoregulation evident in TSHR gene expression. The present report shows that a cis-acting element between -189 and -175 bp, which binds thyroid transcription factor-1 (TTF-1), is involved in both activities. The 22 bp between -199 and -178 contains a positive element important for expression of the TSHR minimal promoter in rat FRTL-5 thyroid cells. DNAase I footprinting shows that extracts from functioning FRTL-5, but not non-functioning FRT thyroid or Buffalo rat liver (BRL) cells, protect a region between -189 and -175 bp. The protection is duplicated by TTF-1, and the protected element has only a two-base mismatch from the consensus TTF-1 element identified in the thyroglobulin (TG) and thyroid peroxidase minimal promoters. Gel mobility shift analyses reveal that FRTL-5 thyroid cell nuclear extracts form a specific protein/DNA complex with this region, which is prevented by the TTF-1 binding element from the TG promoter; FRT and BRL cell nuclear extracts do not have TTF-1 and do not form this complex. A role for the TSHR/TTF-1 binding element in thyroid-specific expression of the TSHR gene is evidenced as follows. Overexpression of TTF-1 in FRT or BRL cells, which have no TTF-1, increased the activity of pTRCAT5'-199, but not pTRCAT5'-177, which has no TTF-1 binding element. A nonsense mutation of the TTF-1 binding element eliminated TTF-1-induced activation of TSHR promoter activity in FRT or BRL cells and reduced TSHR promoter activity in FRTL-5 thyroid cells. In contrast, mutation of this element to the TTF-1 consensus sequence of the TG or thyroid peroxidase promoter had no significant influence on TSHR promoter activity. The activity of the TSHR/TTF-1 binding element requires a functioning cAMP response element (CRE). Thus, TTF-1 activity is lost when the CRE site is mutated to a nonfunctional, nonpalindromic sequence; it is, in contrast, maximized when CRE activity is maximized by its mutation to a consensus AP1 element. TTF-1 phosphorylation is important for binding and activity. Thus, binding of TTF-1 to the TSHR/TTF-1 element is phosphatase-sensitive and is increased by treating nuclear extracts with the catalytic subunit of protein kinase A. Overexpression of the catalytic subunit of PKA enhances TTF-1-increased activity of the TSHR minimal promoter.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Thyroid-specific expression and cyclic adenosine 3',5'-monophosphate autoregulation of the thyrotropin receptor gene involves thyroid transcription factor-1. 799 32

Interferon-gamma (IFN gamma) is known to suppress the expression of thyroid-specific genes, such as thyroglobulin, thyroid peroxidase, and the TSH receptor (TSHR). In the present study, we show that this reflects, in part, a transcriptional action mediated by thyroid transcription factor-1 (TTF-1). Thus, transfected into rat FRTL-5 cells, the activity of reporter plasmids, containing rat TSHR promoter ligated to a chloramphenicol acetyltransferase gene, was significantly suppressed in the presence of rat IFN gamma. A -199-bp promoter construct showed the greatest suppression by IFN gamma whereas a -177-bp construct, in which the TTF-1 binding site was deleted, showed less suppressibility. The suppressive effect was rat IFN gamma-specific, since human IFN alpha, -beta, and -gamma exhibited no significant effects. The effect was concentration-dependent from 3-50 U/ml. In FRT rat thyroid cells that do not express TTF-1, IFN gamma-induced suppression on the promoter activity was not observed. In addition, when the TTF-1 binding site was mutated so that TTF-1 can not bind, IFN gamma-induced suppression was significantly reduced. In gel mobility shift analyses, a protein-DNA complex formed by TTF-1 was reduced when the nuclear extract prepared from IFN gamma-treated FRTL-5 cells was used; however, expression of TTF-1 mRNA and TTF-1 protein, which were assessed by Northern blot analysis and Western blot analysis, respectively, were not affected by IFN gamma treatment of FRTL-5 cells. Instead, reduction of DNA-binding affinity of TTF-1 was evident when competition analysis was performed in gel mobility shift analysis. From these results, we conclude that IFN gamma suppresses TSHR promoter activity, in part, by reducing TTF-1 binding to its recognition site. We also raise the possibility that the suppressive effect of IFN gamma on promoter activity is mediated by additional element(s) and factor(s) downstream of the TTF-1 site.
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PMID:Interferon-gamma suppresses thyrotropin receptor promoter activity by reducing thyroid transcription factor-1 (TTF-1) binding to its recognition site. 881 23

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