Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0019204 (hepatocellular carcinoma)
71,386 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous experiments have shown that the total cellular content of the AH receptor (AHR) drops rapidly after exposure of mouse hepatoma cells (Hepa-1) to the potent AHR ligand 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD); within 6 hr after treatment, less than 20% of the original cell content of AHR can be detected by radioligand binding or by immunoblotting. The goals of our current study were to determine the duration of receptor depletion following treatment with ligand and to determine if depletion is due to decreased expression of the Ahr gene that encodes the AHR. We found that depletion of AHR persisted for at least 72 hr after exposure to TCDD. Treatment with 3-methylcholanthrene caused a transient drop in total cell AHR, but the AHR levels returned to near pretreatment levels within 72 hr after the first exposure. TCDD treatment did not alter the levels of AHR mRNA as assessed by reverse transcription-polymerase chain reaction or slot blot assays. Thus, the decrease in AHR protein cannot be attributed to depression of transcription of the Ahr gene by TCDD. TCDD treatment did not alter the levels of the dimerization partner of the AHR, the AH receptor nuclear translocator protein (ARNT), or ARNT mRNA. In the presence of TCDD, both the AHR and the ARNT protein can be maintained at high levels in the nucleus if transcription is inhibited with actinomycin-D. In the absence of actinomycin-D, the AHR protein was lost rapidly, but the ARNT protein level in the cell was maintained. Together, these results suggest that the AHR protein is degraded through a selective mechanism that spares the ARNT protein and that the degradation pathway involves a protein that itself has a short half-life.
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PMID:Prolonged depletion of AH receptor without alteration of receptor mRNA levels after treatment of cells in culture with 2,3,7,8-tetrachlorodibenzo-p-dioxin. 951 84

There is currently little information concerning the time-dependent relationship between 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) exposure and aryl hydrocarbon receptor (AHR) and aryl hydrocarbon receptor nuclear translocator (ARNT) protein concentration in vivo. Therefore, female Sprague-Dawley rats were given a single oral dose of TCDD (10 micrograms/kg), and the AHR and ARNT protein concentrations in liver, spleen, thymus, and lung determined by Western blotting. In liver, the concentration of AHR protein was significantly reduced 8 and 24 h postdosing as compared to time-matched controls. In spleen and lung, the concentration of AHR protein was reduced 3, 8, 24, and 168 h posttreatment compared to time-matched controls but returned to control levels by 336 h. In thymus, reductions in AHR protein concentration were observed 8, 24, 168, and 336 h postdosing as compared to time-matched controls. Significant reductions in the concentration of ARNT protein were not observed in any of the TCDD-exposed tissues. Functional studies in cell culture showed that exposure of a mouse hepatoma cell line (Hepa-1c1c7) and a rat smooth muscle cell line (A-7) to TCDD (1 nM) for 12 days resulted in a 50% reduction in TCDD-inducible reporter gene expression following subsequent challenge by an additional dose of TCDD (1 nM). Collectively, these results show that (i) TCDD-mediated depletion of AHR occurs in vivo, (ii) AHR protein does not rapidly recover to pretreatment levels even though the tissue concentration of TCDD has fallen, and (iii) reduction in AHR protein concentration correlates with reduction in TCDD-mediated reporter gene expression in mammalian culture cells.
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PMID:Female Sprague-Dawley rats exposed to a single oral dose of 2,3,7,8-tetrachlorodibenzo-p-dioxin exhibit sustained depletion of aryl hydrocarbon receptor protein in liver, spleen, thymus, and lung. 957 24

We have analyzed protein-DNA interactions in vivo at transcriptional control elements for two hypoxia-inducible genes in mouse hepatoma cells. The promoter for the phosphoglycerate kinase 1 (PGK1) gene contains an initiator element, but no TATA sequence, whereas the promoter for the glucose transporter 1 (Glut1) gene contains a TATA element but no initiator sequence. Our findings reveal hypoxia-inducible, Arnt-dependent occupancy of DNA recognition sites for hypoxia-inducible factor 1 (HIF-1) upstream of both target genes. The conserved recognition motif among the five recognition sites is 5'-CGTG-3'. The PGK1 promoter exhibits constitutive occupancy of a binding site for an unknown protein(s); however, we detect no protein-DNA interaction at the initiator element, in either uninduced or induced cells. The Glut1 promoter also exhibits constitutive protein binding; in addition, the TATA element exhibits partial occupancy in uninduced cells and increased occupancy under hypoxic conditions. We find no evidence for hypoxia-induced changes in chromatin structure of either gene. Time-course analyses of the Glut1 gene reveal a temporal relationship between occupancy of HIF-1 sites and TATA element occupancy. Our findings suggest that the promoters for both hypoxia-responsive genes constitutively maintain an accessible chromatin configuration and that HIF-1 facilitates transcription by recruiting and/or stabilizing a transcription factor(s), such as TFIID, at both promoters.
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PMID:Hypoxia-inducible mammalian gene expression analyzed in vivo at a TATA-driven promoter and at an initiator-driven promoter. 972 95

It has been difficult to study the regulation of cytochrome P4501A2 (CYP1A2) because expression of this enzyme is reported to be limited or absent in cell culture. We found that CYP1A2 can be induced significantly by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), 3-methylcholanthrene (MC), or benz[a]anthracene in the human colon carcinoma cell line LS180. TCDD and MC each caused a dramatic elevation of CYP1A2 mRNA, as assessed by reverse transcription-polymerase chain reaction or by northern blot analysis. TCDD also increased immunoreactive CYP1A2 protein and the activity of phenacetin-O-deethylase, a diagnostic catalytic marker for CYP1A2. The induction of CYP1A2 at all levels (mRNA, protein, catalytic activity) was concentration- and time-dependent: the EC50 for mRNA induction by TCDD = 0.5 nM, and by MC = 1.4 microM. Inducible CYP1A2 mRNA also was detected at lower levels in two other human cell lines, the hepatoma cell line HepG2 and the breast carcinoma cell line MCF-7. CYP1A1 and CYP1B1, additional CYP1 enzymes regulated by the aryl hydrocarbon receptor (AHR), also were inducible by TCDD and MC in LS180 cells; their concentration-dependent induction was highly correlated with induction of CYP1A2 at mRNA, protein, and catalytic levels. CYP1B1 was constitutively expressed and inducible in the LS180, MCF-7, and HepG2 cell lines as well as in the human choriocarcinoma cell line JEG-3 and the squamous cell carcinoma line A431. CYP1A2 was neither constitutively expressed nor inducible in A431 or JEG-3 cells. The expression of mRNAs encoding the regulators of CYP1 enzymes-the AHR and its heterodimerization partner, the ARNT (AH receptor nuclear translocator) protein-was not altered by treatment with TCDD or MC. However, the cytosolic content of AHR protein and ARNT protein was depleted substantially following treatment with TCDD. The LS180 cell line should constitute a good model for further mechanistic studies on AHR-regulated CYP1A2 expression.
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PMID:Regulation of cytochrome P450 enzymes by aryl hydrocarbon receptor in human cells: CYP1A2 expression in the LS180 colon carcinoma cell line after treatment with 2,3,7,8-tetrachlorodibenzo-p-dioxin or 3-methylcholanthrene. 978 29

Previous analyses suggested that potent aryl hydrocarbon receptor (AhR) antagonists were planar, with a lateral electron-rich center. To further define structural requirements and mechanism for antagonism, ten additional flavone derivatives were synthesized. Based on their ability to 1) compete with 2,3,7, 8-tetrachlorodibenzo-p-dioxin (TCDD) for binding to the AhR; 2) inhibit TCDD-elicited binding of AhR to dioxin-responsive elements (DRE) in vitro; and 3) inhibit TCDD-induced transcription of DRE-dependent luciferase in stably transfected hepatoma cells, the most potent flavones contained a 3'-methoxy group and a 4'-substituent having one or more terminal atoms of high electron density (-N3, -NO2, or -NCS). Furthermore, these had low agonist activity as assessed by their inability to elicit AhR. DRE binding or to induce luciferase. Compounds containing bulkier 3' or 4'-substituents, or a 3'-OH group were less potent antagonists, and some were partial agonists. In rat liver cytosol, 3'-methoxy-4'-azido- and 3'-methoxy-4'-nitroflavones bound competitively (with TCDD) to the AhR, indicating that they bind to the TCDD-binding site. When hepatoma cells were exposed to these flavones, AhR complexes were primarily immunoprecipitable from the cytosol and contained 90 kDa heat shock protein. In contrast, AhR in TCDD-treated cells was primarily immunoprecipitated from nuclear extracts and was associated with Arnt but not 90 kDa heat shock protein. Immunocytofluorescence analysis in intact cells further indicated that the potent antagonist inhibited nuclear uptake of AhR and blocked TCDD-dependent down-regulation of AhR. Together, these data indicate that the most potent antagonists bind the AhR with high affinity but cannot initiate receptor transformation and nuclear localization.
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PMID:Flavone antagonists bind competitively with 2,3,7, 8-tetrachlorodibenzo-p-dioxin (TCDD) to the aryl hydrocarbon receptor but inhibit nuclear uptake and transformation. 1010 Oct 30

The aryl hydrocarbon nuclear translocator (ARNT) protein functions as a transcription factor after dimerization with other basic helix-loop-helix proteins. Thus, dimerization of ARNT within one pathway may limit the availability of this protein to others. To investigate this issue, aryl hydrocarbon receptor (AHR)-mediated signaling was investigated in mouse (Hepa-1), rat (H4IIE), and human (HepG2) hepatoma cell lines undergoing physiologically induced hypoxia (<1% O(2)). Basal levels of ARNT protein were not affected by hypoxia in any cell line, and ARNT remained exclusively nuclear. Furthermore, quantitative Western blotting revealed that the concentration of ARNT sequestered during hypoxia represented a small fraction of the total ARNT protein pool (12 and 15% in Hepa-1 and H4 cells, respectively). When the AHR-mediated signaling pathway was activated during hypoxia by 2,3,7,8-tetrachlorodibenzo-p-dioxin, the induction of P4501A1 protein was reduced by 55% without changes in the level of mRNA in Hepa-1 cells, whereas the levels of induction of both P4501A1 protein and CYP1A1 mRNA were reduced by >80% in the H4 cell line. Importantly, gel mobility shift analysis and Western blotting showed that the same level of AHR/ARNT complexes could be detected in cells treated with 2,3,7,8-tetrachlorodibenzo-p-dioxin during hypoxia and normoxia. These data suggest that the effects of hypoxia on AHR-mediated gene regulation occur distal to the formation of AHR/ARNT complexes and imply that functional interference between hypoxia and AHR-mediated signaling does not occur through competition for ARNT protein.
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PMID:Analysis of aryl hydrocarbon receptor-mediated signaling during physiological hypoxia reveals lack of competition for the aryl hydrocarbon nuclear translocator transcription factor. 1057 39

We have used polycyclic aromatic hydrocarbon (PAH) alkyne metabolism-based inhibitors to test whether CYP1B1 metabolism is linked to aryl hydrocarbon receptor (AhR) activation in mouse embryo fibroblasts (MEF). 1-ethynylpyrene (1EP) selectively inactivated CYP1B1 dimethylbenzanthracene (DMBA) metabolism in C3H10T1/2 MEFs; whereas 1-(1-propynyl)pyrene (1PP) preferentially inhibited CYP1A1 activity in Hepa-1c1c7 mouse hepatoma cells (Hepa). In each cell type >90% inhibition of DMBA metabolism after 1 h treatment with each inhibitor (0.1 microM) was progressively reversed and then increased to levels seen with 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) induction (fourfold stimulation). It was found that 0.1 microM 1EP and 1PP maximally induce CYP1B1 and CYP1A1 mRNA levels in10T1/2 and Hepa cells, respectively, after 6 h. 1-Ethylpyrene (EtP), which lacks the activatable acetylene moiety, was far less effective as an inhibitor and as an inducer. AhR activation is essential for 1EP induction as evidenced by the use of AhR antagonists and AhR-deficient MEFs and absence of induction following inhibition of DMBA metabolism with carbon monoxide (CO). Inhibition of CYP1B1 was linked to enhanced AhR activation even at early stages prior to significant ligand depletion. 1EP and EtP were similarly effective in stimulating AhR nuclear translocation, though 5-10 times slower compared with TCDD, and produced no significant down-regulation of the AhR. TCDD activated AhR/Arnt complex formation with an oligonucleotide xenobiotic response element far more extensively than 1EP or EtP, even at concentrations of 1EP that increased CYP1B1 mRNA to similar levels. CO did not influence these responses to EtP, event hough CO treatment potentiated EtP induction of CYP1B1 mRNA. These differences suggest a fundamental difference between PAH/AhR and TCDD/AhR complexes where CYP1B1 metabolic activity regulates the potency, rather than the formation of the AhR/Arnt complex.
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PMID:Metabolism-based polycyclic aromatic acetylene inhibition of CYP1B1 in 10T1/2 cells potentiates aryl hydrocarbon receptor activity. 1058 Dec 6

Activation of the aryl hydrocarbon receptor (AhR) by 2,3,7, 8-tetrachlorodibenzo-p-dioxin (TCDD), a potent agonist of AhR, induces a marked reduction in steady state AhR. To analyze the mechanism of regulation of ligand-activated AhR, we examined the biochemical pathway and function of the down-regulation of the receptor by TCDD. Pulse-chase experiments reveal that TCDD shortens the half-life (t1/2) of AhR from 28 to 3 h in mouse hepatoma cells. Inhibitors of the 26 S proteasome, lactacystin and MG132, block the TCDD-induced turnover of AhR. The TCDD-induced degradation of AhR involves ubiquitination of the AhR protein, because (a) TCDD induces formation of high molecular weight, ubiquitinated AhR and (b) degradation of AhR is inhibited in ts20 cells, which bear a temperature-sensitive mutation in the ubiquitin-activating enzyme E1, at a nonpermissive temperature. Inhibition of proteasomal degradation of AhR increases the amount of the nuclear AhR.Arnt complex and "superinduces" the expression of endogenous CYP1A1 gene by TCDD, indicating that the proteasomal degradation of AhR serves as a mechanism for controlling the activity of the activated receptor. We also show that deletion of the transcription activation domain of AhR abolishes the degradation, whereas a mutation in the DNA-binding region of AhR or Arnt reduces the degradation; these data implicate the transcription activation domain and DNA binding in AhR degradation. Our findings provide new insights into the regulation of TCDD-activated AhR through ubiquitin-mediated protein degradation.
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PMID:2,3,7,8-tetrachlorodibenzo-p-dioxin-induced degradation of aryl hydrocarbon receptor (AhR) by the ubiquitin-proteasome pathway. Role of the transcription activaton and DNA binding of AhR. 1072 77

The Ah receptor mediates the induction of cytochrome P450 1A1 (CYP1A1) and toxicities of 2,3,7,8tetrachlorodibanzo-p-dioxin (TCDD). It has been detected in tissues of many species and in murine and human hepatoma lines. We show that the human hepatoma line SK-Hep-1 has cytosolic Ah receptor detectable by specific binding of [3H]TCDD. Concentrations of Ah receptor were low (mean = 43 +/- 3 fmol/mg cytosol protein compared to 430 fmol/mg protein in Hepa-1); the estimated number of receptor sites per cell is approximately 9,000, compared to 35,000 in Hepa-1. Ah receptor in SK-Hep-1 cells was physicochemically similar to Ah receptor in C57BL/6 mouse liver and in other human hepatoma lines studied to date except that binding affinity for TCDD, the most avidly bound ligand, was lower (estimated Kd was 14 nM by Woolf plot analysis). Translocation of the Ah receptor-ligand complex to the nucleus was shown; binding of the activated Ah receptor-ligand complex to an XRE in the 5'-upstream region of the CYP1A1 gene was demonstrated by gel-shift analysis. However, after SK-Hep-1 cells were incubated with typical PAHs including 3-methylcholanthrene, benzanthracene, and dibenz(a,h)anthracene, each over a wide range of concentrations, no induction of aryl hydrocarbon hydroxylase activity was detectable. On Northern analysis, no message for human CYP1A1 was detected in mRNA prepared from noninduced SK-Hep-1 cells or from cells treated for 24 h with 13 microM dibenz(a,h)anthracene. Further analysis by RT-PCR did not detect the induction of CYP1A1, CYP1A2, or CYP1B1 message in response to 10(-7) M TCDD, 10(-5) M benzanthracene, or 10(-5) M 3-methylcholanthrene. Transient transfection of reporter constructs containing either a minimal promoter or the CYP1A1 promoter fused to a reporter gene (luciferase) did not show any expression in response to increasing concentrations of TCDD up to 10(-8) M. Estimation of the size of the transcripts for AhR and ARNT protein revealed normal sizes, 2.7 and 2.4 kb, respectively. Together, these data suggest that SK-Hep-1 cells express an Ah receptor defective at the level of trans-activation of gene expression. SK-Hep-1 is the first human hepatoma line described with a demonstrable defect in CYP1A1 or its regulation.
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PMID:Failure of Ah receptor to mediate induction of cytochromes P450 in the CYP1 family in the human hepatoma line SK-Hep-1. 1114 30

We have analyzed the core promoter for a dioxin-inducible ecto-ATPase gene in mouse hepatoma cells. The transcriptional initiation site maps to a region that contains neither a TATA sequence nor a consensus initiator sequence nor a downstream promoter element. The core promoter has constitutive activity that does not require either the aromatic hydrocarbon receptor or its heterodimerization partner Arnt. Two GC-rich regions contribute approximately equally to the constitutive activity. Proteins constitutively occupy the GC-rich regions in chromatin. The promoter assumes a non-nucleosomal configuration in its native chromosomal setting in both uninduced and dioxin-induced cells. Our findings imply that the GC-rich regions together with their cognate binding proteins carry out core promoter functions for the ecto-ATPase gene. The promoter is constitutively accessible in situ, and chromatin structure is not a limiting factor for dioxin-inducible ecto-ATPase transcription in intact cells.
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PMID:Accessibility and activity of the promoter for a dioxin-inducible ecto-ATPase gene. 1148 2


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