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)

The glucocorticoid receptor (GR) is a ligand-regulated transcription factor whose ability to bind hormone is thought to be dependent on association with the 90-kDa heat shock protein (hsp90). In the present study, we have generated a novel form of the GR, in which the receptor remains complexed to hsp90 but has lost its ability to bind hormone, by treatment of intact cells with the calmodulin (CaM) antagonist phenoxybenzamine (POBA). Treatment of these cells, mouse L929 cells stably transfected with the mouse mammary tumor virus-chloramphenicol acetyltransferase (MMTV-CAT) reporter construct, with increasing concentrations of POBA resulted in a concentration-dependent inhibition of dexamethasone (Dex)-induced CAT gene expression, with 100 microM POBA resulting in approximately 80% inhibition. This inhibitory effect of POBA was markedly reduced if POBA was added after a short incubation with Dex, suggesting that the primary effect of POBA was on hormone-induced transformation of the GR. Using a subcellular fractionation technique, POBA inhibition of CAT gene expression was found to correlate with an inhibition of Dex-induced GR nuclear translocation. However, inhibition of translocation was not the primary effect of POBA on the GR signal pathway, as POBA was found to reduce GR hormone-binding capacity after treatment of intact cells. The inhibitory effect of POBA on hormone-binding function correlated closely with the inhibitory effect of this drug on CAT gene expression and was not due to an oxidation of sulfhydryl groups, a condition known to reduce GR hormone-binding capacity. Incubation of cytosols from untreated cells with POBA did not decrease GR steroid-binding capacity, demonstrating that this inhibitory effect was not the result of a competitive antagonism at the ligand-binding site. Quantitation of GR protein in the cytosols of POBA-treated cells revealed that the decrease in steroid-binding function was not due to a loss of GR protein. Surprisingly, the amount of GR-bound hsp90 was also unaltered in response to POBA. Taken together, the above observations provide evidence for a novel state of the GR within intact cells in which hsp90 interaction is but one step in the generation or maintenance of hormone-competent receptors. In addition, these results point to the potential use of POBA, and possibly other CaM inhibitors, as antagonists of steroid receptor actions.
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PMID:In vivo evidence for the generation of a glucocorticoid receptor-heat shock protein-90 complex incapable of binding hormone by the calmodulin antagonist phenoxybenzamine. 883 41

Using mouse L929 cells stably transfected with a glucocorticoid receptor (GR)-responsive murine mammary tumor virus-chloramphenicol acetyltransferase (MMTV-CAT) reporter gene (LMCAT2 cells), we have shown that cellular stress (heat or chemical shock) can cause a dramatic increase in the levels of dexamethasone (Dex)-induced CAT gene expression. We refer to this response as the heat shock potentiation effect, or HSPE. As the cellular heat shock response also involves the activation of heat shock transcription factor (HSF), we have, in the present study, examined the role of HSF in the stress potentiation of GR by use of a flavonoid compound, quercetin, recently shown to selectively inhibit the stress response in a variety of human and murine cell lines. Analysis of the HSPE, as well as heat shock protein synthesis and activation of HSF during time-courses of recovery following heat shock, revealed a similar pattern for each response, with peak activities occurring about 16 h after stress. These data suggest a correlation between the activation of both GR and HSF in stressed cells. In L929 cells stably transfected with a CAT reporter plasmid under the control of the HSF-responsive hsp70 promoter (LHSECAT cells), pretreatment with quercetin was found to cause a dose- and time-dependent inactivation of HSF activity following heat shock, but only when added before the stress event. In LMCAT2 cells, quercetin similarly inhibited both heat and chemical shock potentiation of Dex-induced GR activity. This activity of quercetin was not the result of post-transcriptional or general cytotoxic properties, as quercetin (1) did not significantly affect GR or HSF activities when added after the stress event, (2) did not reduce CAT gene expression as controlled by the constitutive SV40 early promoter, and (3) did not alter normal (non-stress), Dex-induced MMTV-CAT expression. Thus, quercetin appears to be an effective and selective inhibitor of HSF stress-induced activation and its ability to prevent the stress potentiation of GR suggests either a direct or indirect involvement by stress-activated HSF in this process, or the existence of a regulatory step common to both the heat shock and HSPE responses.
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PMID:Inhibition of heat shock factor activity prevents heat shock potentiation of glucocorticoid receptor-mediated gene expression. 1059 Aug 36

Developmental gene regulation in trypanosomatids proceeds exclusively by post-transcriptional mechanisms. Stability and abundance of heat shock protein (HSP)70 and HSP83 transcripts in Leishmania increase at mammalian-like temperatures, and their translation is enhanced. Here we report that the 3'-untranslated region (UTR) of HSP83 (886 nucleotides) confers the temperature-dependent pattern of regulation on a chloramphenicol acetyltransferase (CAT) reporter transcript. We also show that the majority of the 3'-UTR sequences are required for increasing mRNA stability during heat shock. Processing of the HSP70 and HSP83 primary transcripts to poly(A)(+) mRNA was more efficient during heat shock; therefore, even when stability at 33 degrees C was reduced by deletions in the 3'-UTR, transcripts still accumulated to comparable and even higher levels. Translation of heat shock transcripts in Leishmania increases dramatically upon temperature elevation. Unlike in other eukaryotes in which the 5'-UTR confers preferential translation on heat shock transcripts, we show that translational control of HSP83 in Leishmania originates from its 3'-UTR. The 5'-UTR alone cannot induce translation during heat shock, but it has a minor contribution when combined with the HSP83 3'-UTR. We identified an element located between positions 201 and 472 of the 3'-UTR which is essential for increasing translation of the CAT-HSP83 reporter RNA at 33-37 degrees C. This region confers preferential translation during heat shock even in transcripts that were less stable. Thus, investigating the traditionally conserved heat shock response reveals that Leishmania parasites use unique pathways for translational control.
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PMID:Developmental regulation of heat shock protein 83 in Leishmania. 3' processing and mRNA stability control transcript abundance, and translation id directed by a determinant in the 3'-untranslated region. 1159 29

Epidemiological studies have shown that there exists some correlation between cadmium exposure and human cancers. The evidence that cadmium and cadmium compounds are probable human carcinogens is also supported by experimental studies reporting induction of malignant tumors formation in multiple species of laboratory animals exposed to these compounds. In vitro studies with mammalian cells have also shown that cadmium is clastogenic, but its mutagenic potential is rather weak. In this research, we performed the MTT assay for cell viability to assess the cytotoxicity of cadmium chloride (CdCl2), and the CAT-Tox (L) assay to measure the induction of stress genes in thirteen different recombinant cell lines generated from human liver carcinoma cells (HepG2), by creating stable transfectants of different mammalian promoter-chloramphenicol acetyltransferase (CAT) gene fusions. Cytotoxicity experiments with the parental cell line yielded a LC50 of 6.1 +/- 0.8 microg/mL, upon 48 h of exposure. Four (metallothionein--HMTIIA, 70-kDa heat shock protein--HSP70, xenobitic response element--XRE, and cyclic adenosine monophosphate response element--CRE) out of the 13 constructs evaluated showed statistically significant inductions (p < 0.05). The induction of these genes was concentration-dependent. Marginal inductions were also recorded for the c-fos, and 153-kDa growth arrest DNA damage (GADD153) promoters, indicating a potential for CdCl2 to damage DNA. However, no significant inductions (p > 0.05) of gene expression were recorded for cytochrome P4501A1--CYP1A1, glutathion-S-transferase Ya subunit--GST Ya, nuclear factor kappa (B site) response element--NFkappaBRE, tumor suppressor protein response element--p53RE, 45-kDa growth arrest DNA damage--GADD45, 78-kDa glucose regulated protein--GRP78, and retinoic acid response element--RARE. As expected, these results indicate that metallothioneins and heat shock proteins appear to be excellent candidates for biomarkers for detecting cadmium-induced proteotoxic effects at the molecular and cellular levels. Induction of XRE indicates the potential involvement of CdCl2 in the biotransformation process in the liver, while activation of CRE indicates stimulation of cellular signaling through the protein kinases pathway.
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PMID:Cytotoxicity and transcriptional activation of stress genes in human liver carcinoma cells (HepG2) exposed to cadmium chloride. 1167 4

Recent studies in our laboratory indicated that arsenic trioxide has the ability to cause significant cytotoxicity, and induction of a significant number of stress genes in human liver carcinoma cells, HepG2. However, similar investigations with atrazine did not show any significant effects of this chemical on HepG2 cells, even at its maximum solubility of 100 microg/mL in 1% dimethyl sulfoxide (DMSO). Further cytogenetic studies were therefore carried out to investigate the combined effects of arsenic trioxide and atrazine on cell viability and gene expression in immortalized human hepatocytes. Cytotoxicity was evaluated using the MTT-assay for cell viability, while the CAT-Tox (L) assay was performed to measure the induction of stress genes in thirteen different recombinant cell lines generated from human liver carcinoma cells (HepG2), by creating stable transfectants of different mammalian promoter-chloramphenicol acetyltransferase (CAT) gene fusions. Cytotoxicity experiments yielded LC50 values of 11.9 +/- 2.6 microg/mL for arsenic trioxide in de-ionized water, and 3.6 +/- 0.4 microg/mL for arsenic trioxide in 100 microg/mL atrazine; indicating a 3 fold increase in arsenic toxicity associated with the atrazine exposure. Co-exposure of HepG2 cells to atrazine also resulted in a significant increase in the potency of arsenic trioxide to upregulate a number of stress genes including those of the glutathione-S-transferase Ya subunit--GST Ya, metallothioneinIIa--HMTIIA, 70-kDa heat shock protein--HSP70, c-fos, 153-kDa growth arrest and DNA damage (GADD153), 45-kDa growth arrest and DNA damage (GADD45), and 78-kDa glucose regulated protein--GRP78 promoters, as well as the xenobiotic response element--XRE, tumor suppressor protein response element--p53RE, cyclic adenosine monophosphate response element--CRE, and retinoic acid response element--RARE. No significant changes were observed with respect to the influence of atrazine on the modulation of cytochrome P450 1A1-CYP 1A1, and nuclear factor kappa (B site) response element--NFkappaBRE by arsenic trioxide. These results indicate that co-exposure to atrazine strongly potentiates arsenic trioxide-induced cytotoxicity and transcriptional activation of stress genes in transformed human hepatocytes.
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PMID:Atrazine potentiation of arsenic trioxide-induced cytotoxicity and gene expression in human liver carcinoma cells (HepG2). 1167 11


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