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)

An important role in O2 sensing has been assigned to microsomal and membrane-bound b-type cytochromes which generate regulatory reactive O2 species (ROS). Recently, ROS have been shown to suppress the in vitro synthesis of erythropoietin (Epo). We investigated the potential of the antioxidant vitamins A, E and C to enhance renal and hepatic Epo production. Renal effects were studied in isolated serum-free perfused rat kidneys. In control experiments without antioxidant vitamins, Epo secretion amounted to 441 +/- 23 mU/g kidney (mean +/- SEM, N = 5) during the three hour period of hypoxic perfusion (arterial pO2 35 mm Hg). Epo secretion significantly increased to 674 +/- 92 mU/g kidney (N = 7) when vitamins A (0.5 microgram/ml), E (0.5 microgram/ml) and C (10 micrograms/ml) in combination were added to the perfusion medium. The effects of the single vitamins were studied in Epo-producing hepatoma cell cultures (lines HepG2 and Hep3B). Vitamin A induced a dose-dependent increase (half-maximal stimulation at 0.2 microgram/ml) in the production of immunoreactive Epo during 24 hours of incubation (such as 680 +/- 51 U Epo/g cell protein in HepG2 cultures with 3 micrograms/ml retinol acetate compared to 261 +/- 15 U/g in untreated controls; N = 4). In contrast, vitamin E (tested from 0.05 to 500 micrograms/ml) and vitamin C (tested from 2 to 200 micrograms/ml) did not increase Epo production in hepatoma cell cultures. Thus, while vitamins E and C may have the potential to protect cells from oxidative damage, vitamin A exerts a specific stimulation of Epo production. Preliminary evidence suggests that this effect of vitamin A involves increased mRNA levels of hypoxia-inducible factor 1 alpha (HIF-1 alpha).
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PMID:Effects of antioxidant vitamins on renal and hepatic erythropoietin production. 902 29

The hypoxia-inducible factor-1 (HIF-1) is involved in the induction of oxygen regulated genes such as erythropoietin and vascular endothelial growth factor (VEGF). HIF-1 is a heterodimeric transcription factor consisting of an alpha and a beta subunit. The question of how HIF-1 itself is regulated remains to be elucidated. Studies performed in human Hep3B hepatoma cells suggested that the prevalent mode of HIF-1 action is an increase in HIF-1 alpha steady-state mRNA and protein levels after hypoxic exposure. In contrast to the reported very low basal HIF-1 alpha mRNA levels, however, we detected HIF-1 alpha mRNA in several cell lines cultured under normoxic conditions, although no HIF-1 DNA binding activity was observed. Following hypoxic induction, VEGF mRNA levels and HIF-1 DNA binding activity increased, but HIF-1 alpha mRNA levels remained largely unchanged. One possible explanation for this discrepancy might be that HIF-1 DNA binding activity does not follow HIF-1 alpha mRNA kinetics. We therefore incubated HeLaS3 cells in tonometers for 7.5 minutes up to four hours at either 20% O2 or 0.5% O2. Although there was some variation in HIF-1 alpha mRNA levels, we did not find significant changes over this time frame, suggesting that HIF-1 alpha is not transcriptionally regulated.
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PMID:Hypoxia-inducible factor-1 alpha is regulated at the post-mRNA level. 902 39

The discovery that the oxygen-regulated transcription factor HIF-1 alpha and the dioxin receptor AhR share the common heterodimerization partner ARNT (HIF-1 beta) raised the question whether a cross-talk between oxygen and dioxin signal transduction pathways exists. To answer this question we investigated an ARNT-deficient mutant cell line (Hepa1C4), which has lost its capability of responding to dioxin. The results demonstrate that the presence of ARNT is indispensable for hypoxia-inducible HIF-1 DNA binding as well as for oxygen-regulated reporter gene activity mediated by the EPO 3' hypoxia response element (HRE). Hypoxic induction of the vascular endothelial growth factor (VEGF) gene, however, was only partially abrogated in Hepa1C4 cells, suggesting that HIF-1-independent oxygen signaling pathways might exist. We further studied HIF-1 and AhR/ARNT DNA binding activity as well as the regulation of oxygen- and xenobiotic-responsive genes by treating mouse Hepa1 hepatoma cells with hypoxia and/or the dioxin analogue ICZ. Hypoxia-inducible VEGF expression was found to be independent of ICZ-treatment, whereas ICZ-inducible cytochrome P-450IA1 expression was slightly reduced by hypoxic treatment of the cells. Interestingly, the enhancer function of a xenobiotic response element (XRE) linked to a reporter gene was induced by hypoxia, but expression of a HRE-containing reporter gene was not affected by ICZ treatment.
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PMID:Oxygen- and dioxin-regulated gene expression in mouse hepatoma cells. 902 41

Erythropoietin (Epo) is a glycoprotein hormone that is the primary regulator of red blood cell production. Epo production increases in response to tissue hypoxia. This increase occurs primarily at the transcriptional level. Hypoxia inducible factor (HIF-1) is a DNA binding protein that binds to a hypoxia inducible enhancer in the 3' flanking sequence of the Epo gene. HIF-1 is a heterodimer that consists of an alpha and beta subunit. HIF-1 DNA binding activity is induced in response to hypoxia. In order to determine if one or both HIF-1 subunits is capable of ligand binding, subsequently leading to Epo production we performed co-transactivation experiments. Transfections were performed in Hep 3B, an Epo producing human hepatoma cell line and Cos-7, a non-Epo producing monkey kidney cell line. Cells were co-transfected with the 38 bp Epo enhancer fragment bearing the HIF-1 binding motif, subcloned in the luciferase reporter plasmid and either the HIF-1alpha cDNA, HIF-1beta cDNA, HIF-1alpha and HIF-1beta cDNAs or pREP-4 respectively. Cells were incubated in an hypoxic (1%O2) or normoxic (21%O2) environment and assayed for luciferase activity. Epo levels were measured in the culture media from the transfected plates by an ELISA assay. Under hypoxic conditions Hep 3B cells transfected with the HIF-1alpha cDNA alone showed a 2.2 fold increase in luciferase activity, HIF-1beta showed a 3.4 fold increase and cells transfected with HIF-1 alpha and beta showed a 6. 9 fold increase in activity over cells transfected with pREP-4. The baseline luciferase activity in transfected 3B cells incubated in normoxia was very low. However, a similar fold increase in luciferase activity in cells transfected with both HIF-1alpha and beta was noted. Under normoxic or hypoxic conditions in Cos-7 cells, a 1.5 fold increase was obtained with the HIF-1alpha and beta constructs transfected independently and a 3.5 fold increase was noted in cells transfected with both constructs. Epo levels increased several fold in all Hep 3B cells that were incubated in hypoxic conditions. However, there was no additional increase in Epo levels in transfected Hep 3B cells. We therefore conclude that although the HIF-1alpha and beta subunits can independently co-transactivate the Epo enhancer, binding of both subunits and a hypoxic environment is necessary for maximal transactivation. Overexpression of the HIF-1 protein alone in normoxic or hypoxic conditions is insufficient for an increase in Epo secretion. Activation/inactivation and interaction of other tissue specific factors is necessary for an increase in Epo gene expression in response to hypoxia.
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PMID:Co-transactivation of the 3' erythropoietin hypoxia inducible enhancer by the HIF-1 protein. 923 55

The Class 3 aldehyde dehydrogenase gene (ALDH3) is expressed differentially in a tissue-specific manner, occurring constitutively in some tissues and in others as a result of xenobiotic induction via the Ah receptor/ARNT pathway. ARNT is also involved in regulating gene expression in response to hypoxia. It dimerizes with hypoxia-inducible factor 1 alpha (HIF-1 alpha) and enhances expression of hypoxia-responsive genes. To determine if ARNT plays a role in regulating ALDH3 in response to low oxygen tension, we studied the effects of 1% oxygen and the hypoxia mimic cobalt chloride on constitutive and inducible ALDH3 expression in rat hepatoma cells and rat corneal epithelial cells. Hypoxia sharply down-regulates constitutive ALDH3 expression in corneal epithelial cells. Likewise, aromatic hydrocarbon-induced ALDH3 expression in H4-II-EC3 cells is significantly reduced by hypoxia. In contrast, hypoxia has no effect on constitutive or aromatic hydrocarbon-inducible ALDH3 expression in HTC cells. Our data indicate that hypoxia exerts cell type-specific effects on both constitutive and induced ALDH3 expression.
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PMID:Hypoxia exerts cell-type-specific effects on expression of the class 3 aldehyde dehydrogenase gene. 973 Dec 2

Hypoxia-inducible factor-1 (HIF-1) is a master regulator of mammalian oxygen homeostasis. HIF-1 consists of two subunits, HIF-1 alpha and the aryl hydrocarbon receptor nuclear translocator (ARNT). Whereas hypoxia prevents ubiquitination and proteasomal degradation of HIF-1 alpha, ARNT expression is thought to be oxygen-independent. We and others previously showed that ARNT is indispensable for HIF-1 DNA-binding and transactivation function. To examine the requirement of ARNT for accumulation and nuclear translocation of HIF-1 alpha in hypoxia, we used ARNT-mutant mouse hepatoma and ARNT-deficient embryonic stem cells. As shown by immunofluorescence, HIF-1 alpha accumulation in the nucleus of hypoxic cells did not require ARNT, demonstrating that nuclear translocation is intrinsic to HIF-1 alpha. During biochemical separation, both HIF-1 alpha and ARNT tend to leak from the nuclei in the absence of the corresponding subunit, suggesting that heterodimerization is required for stable association within the nuclear compartment. Nuclear stabilization of the heterodimer might also explain the hypoxically increased total cellular ARNT levels observed in some of the cell lines examined.
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PMID:Regulation of the hypoxia-inducible factor-1 alpha. ARNT is not necessary for hypoxic induction of HIF-1 alpha in the nucleus. 1084 51

Induction of erythropoietin (Epo) expression under hypoxic conditions is mediated by the heterodimeric hypoxia-inducible factor (HIF)-1. Following binding to the 3' hypoxia-response element (HRE) of the Epo gene, HIF-1 markedly enhances Epo transcription. To facilitate the search for HIF-1 (ant)agonists, a hypoxia-reporter cell line (termed HRCHO5) was constructed containing a stably integrated luciferase gene under the control of triplicated heterologous HREs. Among various agents tested, we identified a class of substances called epolones, which induced HRE-dependent reporter gene activity in HRCHO5 cells. Epolones are fungal products known to induce Epo expression in hepatoma cells. We found that epolones (optimal concentration 4-8 micromol/L) potently induce HIF-1 alpha protein accumulation and nuclear translocation as well as HIF-1 DNA binding and reporter gene transactivation. Interestingly, the activity of a compound related to the fungal epolones, ciclopirox olamine (CPX), was blocked after addition of ferrous iron. This suggests that CPX might interfere with the putative heme oxygen sensor, as has been proposed for the iron chelator deferoxamine mesylate (DFX). However, about 10-fold higher concentrations of DFX (50-100 micromol/L) than CPX were required to maximally induce reporter gene activity in HRCHO5 cells. Moreover, structural, functional, and spectrophotometric data imply a chelator:iron stoichiometry of 1:1 for DFX but 3:1 for CPX. Because the iron concentration in the cell culture medium was determined to be 16 micromol/L, DFX but not CPX function can be explained by complete chelation of medium iron. These results suggest that the lipophilic epolones might induce HIF-1 alpha by intracellular iron chelation. (Blood. 2000;96:1558-1565)
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PMID:Epolones induce erythropoietin expression via hypoxia-inducible factor-1 alpha activation. 1094 6

Tumor hypoxia in a solid tumor mass has long been recognized as a cause of resistance to current cancer therapies, and has also been suggested to be a potent driving force towards malignancy. Recent progress in the understanding of the molecular mechanism of the tumor response to hypoxia has increased attention on targeting hypoxia for cancer therapy. We have generated a hypoxia-targeting fusion protein, TOP3, which is composed of a protein transduction domain (PTD) of HIV TAT, an oxygen-dependent degradation domain (ODD) of HIF-1 alpha, and procaspase-3. Here, we examine the effects of TOP3 in a rat ascites model. First, we clarified that the fluid in ascites from MM1 cells, which are derivatives of AH130 rat ascites hepatoma cells, was highly hypoxic. In vitro, MM1 cells retained protein degradation machinery through the ODD domain, and TOP3 effectively impaired MM1 cell growth in culture under hypoxic conditions by inducing apoptosis. Intraperitoneal administration of TOP3 prolonged the life span of rats bearing a significant amount of malignant ascites, and 60% of the treated animals were cured without recurrence of ascites. Thus, TOP3 had a dramatic effect on malignant ascites and, hence, we propose that rodent malignant ascites is an appropriate platform for testing hypoxia-targeted drugs.
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PMID:Targeting hypoxic cancer cells with a protein prodrug is effective in experimental malignant ascites. 1528 74

Insulin-like growth factor 1 (IGF-1) and plasminogen activator inhibitor-1 (PAI-1) appear to play a crucial role in a number of processes associated with growth and tissue remodelling. IGF-1 was shown to enhance PAI-1 expression in primary hepatocytes and HepG2 hepatoma cells, but the molecular mechanisms underlying this effect have not been fully elucidated. In this study, we investigated the transcriptional mechanism and the signaling pathway by which IGF-1 mediates induction of PAI-1 expression in HepG2 cells. By using human PAI-1 promoter reporter gene assays we found that mutation of the hypoxia responsive element (HRE), which could bind hypoxia-inducible factor-1 (HIF-1), nearly abolished the induction by IGF-1. We found that IGF-1-induced up-regulation of PAI-1 expression was associated with activation of HIF-1 alpha. Furthermore,IGF-1 enhanced HIF-1alpha protein levels and HIF-1 DNA-binding to each HRE,E4 and E5 as shown by EMSA. Mutation of the E-boxes, E4 and E5, did not affect the IGF-1-dependent induction of PAI-1 promoter constructs under normoxia but abolished the effect of IGF-1 under hypoxia. Inhibition of either the PI3K by LY294002 or ERK1/2 by U0126 reduced HIF-1alpha protein levels while both inhibitors together completely abolished the IGF-1 effect on HIF-1alpha. Remarkably, transfection of HepG2 cells with vectors expressing a dominant-negative PDK1 or the PKB inhibitor, TRB3, did not influence while dominant-negative Raf inhibited the IGF-1 effect on HIF-1alpha. Thus, IGF-1 activates human PAI-1 gene expression through activation of the PI3-kinase and ERK1/2 via HIF-1alpha.
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PMID:Transcriptional regulation of plasminogen activator inhibitor-1 expression by insulin-like growth factor-1 via MAP kinases and hypoxia-inducible factor-1 in HepG2 cells. 1596 5

The hypoxia-inducible factor-1 alpha (HIF-1 alpha) is a transcription factor that mediates adaptive cellular responses to decreased oxygen availability (hypoxia). At normoxia, HIF-1 alpha is targeted by the von Hippel-Lindau tumor suppressor protein (pVHL) for degradation by the ubiquitin-proteasome pathway. In the present study we have observed distinct cell-type-specific differences in the ability of various tested pVHL-interacting subfragments to stabilize HIF-1 alpha and unmask its function at normoxia. These properties correlated with differences in subcellular compartmentalization and degradation of HIF-1 alpha. We observed that the absence or presence of nuclear localization or export signals differently affected the ability of a minimal HIF-1 alpha peptide spanning residues 559 to 573 of mouse HIF-1 alpha to stabilize endogenous HIFalpha and induce HIF-driven reporter gene activity in two different cell types (primary mouse endothelial and HepG2 hepatoma cells). Degradation of HIF-1 alpha occurred mainly in the cytoplasm of HepG2 cells, whereas it occurs with equal efficiency in nuclear and cytoplasmic compartments of primary endothelial cells. Consistent with these observations, green fluorescent protein-HIF-1 alpha is differently distributed during hypoxia and reoxygenation in hepatoma and endothelial cells. Consequently, we propose that differential compartmentalization of degradation of HIF-1 alpha and the subcellular distribution of HIF-1 alpha may account for cell-type-specific differences in stabilizing HIF-1 alpha protein levels under hypoxic conditions.
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PMID:Cell-type-specific regulation of degradation of hypoxia-inducible factor 1 alpha: role of subcellular compartmentalization. 1673 27


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