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)

In this report we demonstrate that a transcriptional regulatory element for one gene lies within a second, seemingly unrelated gene. Specifically, the 3' portion of the murine sex-limited protein (slp) gene, located within the class III region of the major histocompatibility complex, contains an element that regulates expression of the linked steroid 21-hydroxylase gene. A 4.2-kilobase (kb) major histocompatibility complex region, located between -2.2 and -6.4 kb upstream of 21OH-A, is required for expression of a chloramphenicol acetyltransferase reporter gene in transgenic mice. Two short regions of DNA, located between -5.3 and -6.0 kb, stimulate chloramphenicol acetyltransferase expression in Y1 adrenocortical tumor cells, and both of these active regions lie within the slp gene. A 21-base pair sequence, which is required for activity of the most 3' region, does not contain any of over 100 previously identified transcriptional regulatory elements. This juxtaposition of structural and regulatory elements of otherwise unrelated genes suggests a mechanism by which the evolutionarily conserved genetic linkage of 21OH-A and slp (or the homologous complement component C4) might provide a selective advantage. Analogous genetic arrangements may explain other examples of conserved linkage of disparate genes.
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PMID:An element regulating adrenal-specific steroid 21-hydroxylase expression is located within the slp gene. 140 May 3

Ultraviolet B radiation (UVB) and phorbol esters are known to promote tumor formation in skin; however, the interaction between UVB and phorbol esters in the regulation of gene expression remains incompletely understood. To define the interaction of UVB and phorbol esters in the control of keratinocyte gene expression, we have studied the effects of the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) and UVB on the regulation of ornithine decarboxylase (ODC) gene expression in a rat keratinocyte cell line. Both UVB and TPA alone increased ODC activity and induced the expression of the ODC gene. The combination of UVB and TPA produced a further increment in ODC gene expression at 12 h, but UVB markedly attenuated the TPA induction of ODC mRNA transcripts at 3 h. Protein synthesis inhibition with cycloheximide also induced ODC mRNA transcripts, but did not eliminate the further induction of ODC gene expression by UVB or TPA. No changes in actin gene expression following exposure to TPA/UVB were detected in the same experiments. UVB and TPA alone or in combination had no effect on the transcriptional activity of an ODC-chloramphenicol acetyltransferase fusion gene in transfected rat keratinocytes. The results of these studies suggest a complex posttranscriptional interaction of phorbol esters and UVB in the control of keratinocyte gene expression.
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PMID:Interaction of TPA and ultraviolet B radiation in regulation of ODC gene expression in rat keratinocytes. 144 3

Activin A is a potent growth and differentiation factor related to transforming growth factor beta. In somatotrophs, activin suppresses the biosynthesis and secretion of growth hormone (GH) and cellular proliferation. We report here that, in MtTW15 somatotrophic tumor cells, activin decreased GH mRNA levels and inhibited expression of transfected GH promoter--chloramphenicol acetyltransferase fusion genes. Deletion mapping of nucleotide sequences mediating this inhibition led to the identification of a region that has previously been characterized as binding the pituitary-specific transcription factor Pit-1/GHF-1. Characterization of nuclear factor binding to this region demonstrated that binding of Pit-1 to the GH promoter is lost on activin treatment. These results indicate that activin-induced repression of GH biosynthesis is mediated by the loss of tissue-specific transcription factor binding to the GH promoter and suggest a possible general mechanism for other activin responses, whereby activin regulates the function of other POU- or homeodomain-containing transcription factors.
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PMID:Activin inhibits binding of transcription factor Pit-1 to the growth hormone promoter. 145 33

Oncogenic activation of ras results in changes in the transcription of several genes leading to uncontrolled cell growth. In this paper, we demonstrate that transformation of fibroblast cells by the ras oncogene leads to transcriptional repression of the smooth muscle alpha-actin promoter. Transient transfection analysis of plasmids containing the 5' upstream region of the human alpha-actin gene fused to human growth hormone or bacterial chloramphenicol acetyltransferase coding sequences into Rat-2 and ras-transformed Rat-2 (HO6) cells indicates that alpha-actin promoter is repressed in ras-transformed cells. In addition, stable rat fibroblast cell lines expressing human growth hormone or beta-galactosidase under the control of alpha-actin promoter exhibit repressed reporter gene activity following transformation by the ras oncogene. alpha-Actin promoter-driven beta-galactosidase activity is derepressed in revertants of ras-transformed stable cell lines. This revertant cell line expresses elevated levels of ras p21 protein and is resistant to retransformation by Ki and Ha-ras oncogenes. The revertant may have either a defective target protein whose activity is essential for the transforming activity of ras or an activated tumor suppressor gene which can suppress the activity of ras. These results indicate that smooth muscle alpha-actin promoter activity is a sensitive marker to follow phenotypic changes following transformation by ras and subsequent reversion. The advantages of this alpha-actin promoter-reporter gene assay system to screen for drugs that inhibit the transforming activity of ras, either directly or indirectly, are discussed.
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PMID:Regulation of smooth muscle alpha-actin promoter in ras-transformed cells: usefulness for setting up reporter gene-based assay system for drug screening. 145 76

The role of the simian immunodeficiency virus (SIV) nef gene in viral replication was investigated in several tissue culture systems. SIVmac1A11 is a molecularly cloned virus which replicates in both peripheral blood mononuclear cells (PBMC) and macrophages, although no disease is observed in infected rhesus macaques. In this report, we demonstrate that SIVmac1A11 contains a full open reading frame for nef which specifies a 37-kDa protein. To investigate the effects of nef on viral replication, a 70-bp deletion was introduced into the nef gene of SIVmac1A11. Analysis of infected cell extracts by immunoblotting revealed that both SIVmac1A11 and nef deletion virus SIVmac1A11 delta nef produced the same viral proteins, except that Nef was absent in the mutant virus. The deletion mutation did not affect viral replication in PBMC, in monocyte-derived and alveolar macrophages obtained from rhesus macaques, and in human cell lines HUT-78 and CEMx-174. In addition, SIVmac1A11 and SIVmac1A11 delta nef exhibited similar patterns of cytopathologic changes and ultrastructural appearances in infected cells. SIVmac1A11 and SIVmac1A11 delta nef did not infect human tumor macrophage cell line U937, GCT, THP-1, or HL-60 cells, although virus was produced after these cells were transfected with either wild-type or nef mutant viral DNA. Similar levels of virus were recovered from U937 and THP-1 cells transfected with mutant and parental proviral DNAs. In transient expression assays in a T-cell line and a macrophage line, the nef protein of SIVmac1A11 did not significantly suppress or enhance expression of the chloramphenicol acetyltransferase reporter gene linked to the SIVmac long terminal repeat. Thus, abrogation of nef did not affect several in vitro properties of SIVmac1A11, including patterns of viral infection in rhesus PBMC, rhesus macrophages, or human T-cell lines.
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PMID:The nef gene of simian immunodeficiency virus SIVmac1A11. 150 Dec 82

The effect of the treatment of HeLa cells with a tumor-promoting phorbol ester, 12-o-tetradecanoyl-phorbol-13-acetate (TPA) on the expression of the genes for the calpain family has been examined. Among the mRNAs for the calpain family, only the mRNA for the large subunit of human m-calpain (calpain mL) was specifically induced by treatment of cells with TPA, suggesting its specific function in response to cellular stimuli. The effect of TPA on the expression of the calpain mL gene was further examined using fusion genes containing the promoter/enhancer region of the calpain mL gene fused upstream of the bacterial chloramphenicol acetyltransferase (CAT) gene, showing that the promoter/enhancer sequence of the calpain mL gene contains a cis-acting element which responds to TPA and activates transcription of the downstream sequence.
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PMID:Transcriptional activation of the gene for the large subunit of human m-calpain by 12-o-tetradecanoyl-phorbol-13-acetate. 161 29

The expression of a mu-class glutathione S-transferase gene (hGSTYBX) isolated from hamster smooth muscle tumor cells (DDT1 MF-2) is transcriptionally up-regulated by glucocorticoids, and this hormonal regulation is dependent upon protein synthesis. To study the mechanism of regulation, we have cloned and sequenced hGSTYBX genomic DNA including its 5' flanking region. The hGSTYBX gene contains nine exons dispersed over a 6.3-kilobase region. When linked to a chloramphenicol acetyltransferase (CAT) reporter gene, the 5' flanking region was able to direct transcription of the reporter gene. With 5' deletion studies, we have localized the major glucocorticoid-inducible regulatory element between nucleotides -353 and -239. Within this region no classic glucocorticoid response element (TGTTCT) was identified, but four potential helix-loop-helix binding domains are embedded in two 16-base-pair repeats. Another glucocorticoid regulatory domain has been localized between nucleotides -239 and -136. Cycloheximide blocks glucocorticoid-induced transcription of both the -353CAT and -239CAT reporter genes (nucleotides -447 to -12 and nucleotides -239 to -12 of hGSTYBX, respectively, ligated to a CAT reporter gene); therefore, our observations support previous results suggesting that hGSTYBX induction by glucocorticoids is a secondary response.
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PMID:Cloning of a mu-class glutathione S-transferase gene and identification of the glucocorticoid regulatory domains in its 5' flanking sequence. 163 Oct 97

Shionogi Carcinoma 115 (SC 115) is an androgen-dependent mouse tumor. Chiba Subline 2 (CS 2) is an androgen-independent subline derived from SC 115. CS 2 contains androgen receptors (AR), but is refractory to androgen and does not exhibit androgen-related responses which are observed in SC 115. In the present study the structure and function of AR in SC 115 and CS 2 are examined using cloned cells. There were no gross rearrangements or deletions in the AR genes of these cell lines when compared by Southern blot analysis with the AR gene in the mouse seminal vesicle. SC 115 and CS 2 expressed AR mRNA of normal size. When the cDNA containing DNA- and androgen-binding domains of the AR genes of both cell lines were amplified by polymerase chain reaction, no mutations were found in these regions. SC 115 and CS 2 were transfected with a plasmid containing a long terminal repeat of mouse mammary tumor virus linked to the chloramphenicol acetyltransferase (CAT) gene. Androgen stimulation of these transfectants resulted in equal elevation of CAT activity. These results indicated that the androgen-independent CS 2 contained functionally normal AR which were identical to those in the androgen-dependent parent tumor.
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PMID:Loss of androgen dependency with preservation of functional androgen receptors in androgen-dependent mouse tumor (Shionogi Carcinoma 115). 163 20

We have replaced the polyomavirus (Py) enhancer, which is an essential component of the Py origin of DNA replication (ori), with five repeats of a 17-bp oligonucleotide including the yeast GAL4 upstream activating sequence (5xGAL4 sites). Plasmids containing this modified Py ori, designated test plasmids, and plasmids encoding either the GAL4 transcriptional activator protein or various derivatives of this protein were cotransfected into mouse cells which constitutively synthesize a temperature-sensitive Py large tumor antigen (T-Ag). Replication of the test plasmids was monitored by Southern blot determinations of the amounts of plasmid DNA that became resistant to cleavage by the enzyme DpnI. These studies showed that in the presence of a functional T-Ag, the GAL4 protein, and hybrid proteins including the GAL4 DNA-binding domain and the activating domain of the adenovirus E1a or herpesvirus VP16 protein transactivated the modified Py ori. A truncated protein including just the GAL4 DNA-binding domain was inactive in these assays. The authentic GAL4 protein was found to be a more efficient replication transactivator than the hybrid proteins. In contrast, chloramphenicol acetyltransferase assays showed that the hybrid proteins were more efficient transcriptional activators than the GAL4 protein. The extent of the GAL4-dependent replication of a plasmid in which the Py early promoter was deleted was 55% lower than that of a plasmid including the promoter. However, the extents of replication of plasmids including two tandem repeats of the remaining Py origin core and 5xGAL4 sites or two origin cores flanking a single cluster of 5xGAL4 sites were 4.8- and 1.6-fold higher than that of the plasmid including a single copy of each element. The replication of a plasmid including two clusters of 5xGAL4 sites flanking a single origin core was below the limit of detection of our assays. These results indicate that the GAL4 and hybrid transactivators do not activate the Py ori by virtue of their interactions with transcription factors that bind promoter elements. Rather, it appears that these activator proteins may interact with the replication initiation complexes, thereby facilitating or inhibiting the initiation of replication.
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PMID:The yeast GAL4 protein transactivates the polyomavirus origin of DNA replication in mouse cells. 164 81

The aberrant overexpression of interleukin 6 (IL-6) is implicated as an autocrine mechanism in the enhanced proliferation of the neoplastic cell elements in various B- and T-cell malignancies and in some carcinomas and sarcomas; many of these neoplasms have been shown to be associated with a mutated p53 gene. The possibility that wild-type (wt) p53, a nuclear tumor-suppressor protein, but not its transforming mutants might serve to repress IL-6 gene expression was investigated in HeLa cells. We transiently cotransfected these cells with constitutive cytomegalovirus (CMV) enhancer/promoter expression plasmids overproducing wt or mutant human or murine p53 and with appropriate chloramphenicol acetyltransferase (CAT) reporter plasmids containing the promoter elements of human IL-6, c-fos, or beta-actin genes or of porcine major histocompatibility complex (MHC) class I gene in pN-38 to evaluate the effect of the various p53 species on these promoters. Murine and human wt p53 derived from pCMVNc9 and pC53-SN3, respectively, strongly repressed the IL-6 (promoter position -225 to +13), c-fos (-711 to +42), beta-actin (-3400 to +912), and MHC (-528 to -38) promoters in serum-induced HeLa cells; additionally, IL-6 promoter/CAT transcription unit constructs induced by IL-1, phorbol ester, or pseudorabies virus were also repressed by wt human and murine p53. The murine transforming mutant p53 (pCMVc5) was less active in repressing the IL-6, c-fos, beta-actin, and MHC promoter constructs. The human p53 mutant derived from pC53-SCX3 was also less active than the wt protein in repressing the IL-6, c-fos, beta-actin, and MHC promoters, except that serum-induced IL-6/CAT expression was equally repressed by both human wt and mutant p53. In similar transient transfection experiments in HeLa cells, overexpression of the wt human retinoblastoma susceptibility gene product, RB, was found to repress the serum-induced IL-6 (-225 to +13), c-fos (-711 to +42), and beta-actin (-3400 to +912) promoters but not the PRV-induced IL-6 (-110 to +13) or the serum-induced MHC (-528 to -38) promoters. These observations identify transcriptional repression as a property of p53 and suggest that p53 and RB may be involved as transcriptional repressors in modulating IL-6 gene expression during cellular differentiation and oncogenesis.
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PMID:Repression of the interleukin 6 gene promoter by p53 and the retinoblastoma susceptibility gene product. 165 55

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