UMLS:C0019204 - FACTA Search

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

The experiments reported here identify nitric oxide as a molecular effector of activated macrophage induced cytotoxicity. Cytotoxic activated macrophages synthesize nitric oxide from a terminal guanidino nitrogen atom of L-arginine which is converted to L-citrulline without loss of the guanidino carbon atom. In addition, authentic nitric oxide gas causes the same pattern of cytotoxicity in L10 hepatoma cells as is induced by cytotoxic activated macrophages (iron loss as well as inhibition of DNA synthesis, mitochondrial respiration, and aconitase activity). The results suggest that nitric oxide is the precursor of nitrite/nitrate synthesized by cytotoxic activated macrophages and, via formation of iron-nitric oxide complexes and subsequent degradation of iron-sulfur prosthetic groups, an effector molecule.
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PMID:Nitric oxide: a cytotoxic activated macrophage effector molecule. 319 52

Nitric oxide has been shown to be a mediator molecule in the regulation of many physiological functions. However, this small diatomic molecule in the presence of O2 generates reactive intermediates which modify DNA bases and inactive enzymes at high concentrations (100 microM). We report that NO generated by 1,1-diethyl-2-hydroxy-2-nitrosohydrazine (DEA/NO, Et2NN(O)NO-Na+), a compound known to release NO in a predictable manner, caused irreversible damage at physiological concentrations to the zinc finger-containing DNA repair enzyme formamidopyrimidine-DNA glycolyase (Fpg protein). The inhibition of the enzyme activity was DEA/NO dose and time dependent with IC50s with respect to total NO released from this compound of approximately 110 and approximately 120 mumol/l respectively. This inhibitory effect by P3 was not reversible over time in the presence of reducing agents and/or Zn2+. Nitrite and diethylamine, the nitrogenous products of the decomposition of DEA/NO, did not inhibit the enzyme. The presence of 500 micrograms/ml bovine serum albumin did not protect the protein from the inhibitory effects of DEA/NO, however, the presence of 10 mM cysteine did dramatically abate the inhibition of the Fpg protein by DEA/NO. Other DNA glycosylases tested were not inhibited by exposure to these concentrations of NO. These results, together with reports of site-directed mutagenesis of this protein, suggest that the cysteine residues contained within the zinc finger motif of the Fpg protein are the primary sites of NO interaction. Our studies were then extended to intact cells. The Fpg protein activity was decreased following treatment in vivo when Escherichia coli MH321 (acr A-) cells were treated with DEA/NO. Furthermore, the Fapy-DNA glycosylase activity in H4 cells, a rat hepatoma line, was decreased when intact cells were incubated with DEA/NO.
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PMID:The Fpg protein, a DNA repair enzyme, is inhibited by the biomediator nitric oxide in vitro and in vivo. 795 43

The metabolic changes in rat hepatoma cell line, AH70 cells, after coculturing with Kupffer cells were visualized using a silicon-intensified target camera and subsequent processing with a computer-assisted digital imaging processor. In cocultured tumor cells, nonactivated Kupffer cells reduced mitochondrial energization as indicated by the decrease in the fluorescence intensity of rhodamine 123 (Rh123) and induced lipid peroxidation as shown by the dichlorofluorescein (DCF) activation. The reduction in Rh123 could be eliminated by addition of an analogue of L-arginine (NG-monomethyl-L-arginine), suggesting the involvement of nitric oxide (NO.) in the decrease in mitochondrial energization. Superoxide dismutase did not inhibit the reduction in Rh123 but significantly inhibited DCF activation. These findings indicate that the latter reaction was mediated by superoxide anion. Two h after the cells were cocultured, propidium iodide-positive, severely injured tumor cells significantly increased in number. This increase was significantly attenuated by addition of NG-monomethyl-L-arginine but not by superoxide dismutase, suggesting that NO. may be greatly involved in Kupffer cell-mediated injury of AH70 cells. In another set of experiments, the culture medium of Kupffer cells caused no significant alteration of Rh123, DCF, and propidium iodide-associated fluorescences in AH70 cells. In addition, ultrastructural observation revealed that the membrane-to-membrane attachment between Kupffer cells and tumor cells occurred within 30 min after coculturing. These results suggest that Kupffer cell-derived NO. release, triggered by the close contact with tumor cells, may induce damage to tumor cells via inhibition of mitochondrial energization.
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PMID:Nitric oxide mediates Kupffer cell-induced reduction of mitochondrial energization in hepatoma cells: a comparison with oxidative burst. 838 20

Woodchuck (Marmota monax) hepatic cells, which were immortalized by the simian virus 40 large T antigen (SV40 Tag) produced nitric oxide (NO; measured as nitrite) in vitro from L-arginine (L-Arg) after lipopolysaccharide (LPS) treatment. NO synthesis was related to L-Arg and LPS concentration and plateaued at 1.0 mM L-Arg and 1.0 microgram/ml LPS. LPS-stimulated cells nitrosated morpholine to form N-nitrosomorpholine (NMOR) in the presence of L-Arg at pH 7.4. NMOR production increased 7-fold in LPS stimulated cells compared to unstimulated hepatocytes. N-nitrosodimethylamine (NDMA) was detected in the cell culture medium in the presence of LPS and L-Arg but without added dimethylamine. NG-monomethyl-L-arginine, a selective inhibitor of nitric oxide synthase, inhibited formation of NO and NMOR, indicating that NO and nitrosating agents were formed via the L-Arg-nitric oxide pathway. These data are the first to report NO and N-nitrosamine production by immortalized hepatocytes and confirm earlier work showing that primary hepatocytes form NO in culture. This suggests that hepatic formation of N-nitroso compounds and/or NO could be an etiologic factor in hepatocellular carcinoma. Immortalized woodchuck hepatic cells may be useful as in vitro models to study the L-Arg-nitric oxide pathway and its possible role in liver carcinogenesis.
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PMID:Synthesis of nitric oxide and nitrosamine by immortalized woodchuck hepatocytes. 839 80

1. This study was designed to determine the role of sodium-potassium adenosine triphosphatase (Na(+)-K(+)-ATPase) in the regulation of human corpus cavernosum smooth muscle contractility by nitric oxide (NO). In addition, we determined if the modulation of Na(+)-K(+)-ATPase activity by NO is dependent on the increase in intracellular cyclic GMP concentration. 2. The effect of NO donors, sodium-nitroprusside (SNP) and S-nitroso-glutathione (S-NO-Glu), and a permeable cyclic GMP analogue, 8-bromo-cyclic GMP, on Na(+)-K(+)-ATPase activity (measured as ouabain-sensitive 86Rb-uptake) was studied in human cultured corpus cavernosum smooth muscle cells (HCCSMC). In addition, the effect of the cyclic GMP lowering agent, methylene blue, on NO-induced increase in Na(+)-K(+)-ATPase activity was studied. 3. SNP (1 microM) caused time-dependent increases in ouabain-sensitive Rb-uptake (33-72%) over 2-20 min in HCCSMC. The stimulation of ouabain-sensitive Rb-uptake by SNP was concentration-dependent (30 and 102% with 0.1 and 1 microM SNP, respectively). Similarly, significant increases in ouabain-sensitive Rb-uptake were obtained with 1 and 10 microM S-NO-Glu. In contrast, incubation of HCCSMC with 8-bromo-cyclic GMP (100 microM) did not increase ouabain-sensitive Rb-uptake. 4. S-NO-Glu induced-increase in intracellular cyclic GMP synthesis, but not the increase in ouabain-sensitive Rb-uptake, was completely inhibited by methylene blue in HCCSMC. 5. The Na(+)-K(+)-ATPase inhibitor, ouabain, caused a concentration-dependent increase in tension (0.5 to 2 fold) in tissues contracted with 15 mM KCl. SNP and S-NO-Glu caused a concentration-dependent relaxation (concentration required to cause half maximal relaxation (ED50) = 0.04 and 0.2 microM, respectively) of HCC strips contracted with 15 mM K+. Ouabain (0.1 to 10 microM) inhibited the response to SNP and S-NO-Glu by shifting the concentration-response curves to the right and preventing full smooth muscle relaxation.6. These results indicate that the activity of Na+-K+-ATPase modulates the contractility of HCC smooth muscle, and that NO stimulates Na+-K+-ATPase activity in HCCSMC independently of its ability to increase the intracellular cyclic GMP concentration. They also suggest that stimulation of Na+-K+-ATPase activity plays an important role in NO-induced relaxation of HCC smooth muscle
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PMID:Possible role of Na(+)-K(+)-ATPase in the regulation of human corpus cavernosum smooth muscle contractility by nitric oxide. 856 49

The occurrence of multilocular malignant tumors in the upper aerodigestive tract in young patients with known marijuana abuse has been described by other authors. A case of a 28-year-old man who was known to abuse alcohol, nicotine and cannabis for some years is presented. He suffered simultaneously from a squamous cell carcinoma of the hypopharynx with bilateral cervical metastases, an adenocarcinoma of the transverse colon and a primary hepatocellular carcinoma. This case is the first reported that shows the occurrence of three separate malignant tumors with different histologies in the aerodigestive tract which could be related to a chronic abuse of cannabis.
HNO 1995 Dec
PMID:[3 different malignancies of the aerodigestive tract after chronic abuse of cannabis products]. 858 33

The metabolic changes in a rat hepatoma cell line, AH70 cells, after co-culture with rat Kupffer cells (KC) were visualized and analysed using a fluorescence microscope equipped with a silicon intensified target camera and a laser scanning confocal microscopic system. Kupffer cells were isolated from male Wistar rats, and cultured without any stimuli. The non-activated KC reduced the mitochondrial energization in the cocultured AH70 cells within 2 h, which was indicated by decreased rhodamine 123 (Rh123) fluorescence. Either NG-monomethyl-L-arginine or dexamethasone significantly attenuated the KC-induced mitochondrial dysfunction in AH70 cells, suggesting the involvement of nitric oxide (NO) derived from inducible-type nitric oxide synthase (iNOS). Administration of monoclonal antibody (mAb) directed against rat ICAM-1 also prevented the decrease in Rh123 fluorescence. Electron microscopy revealed that the membrane-to-membrane attachment between KC and AH70 cells occurred within 2 h. A laser scanning confocal microscopic observation using mAb against ICAM-1 presented that the ICAM-1 expression on AH70 cells and KC increased after the co-culture. It is therefore concluded that the KC-mediated mitochondrial dysfunction of hepatoma cells largely depends on NO production by iNOS. Furthermore, the present study supports a scenario that the NO production and release from KC is triggered by the close contact with hepatoma cells through adhesion molecules such as ICAM-1.
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PMID:Nitric oxide mediates mitochondrial dysfunction in hepatoma cells induced by non-activated Kupffer cells: evidence implicating ICAM-1-dependent process. 858 48

Reactive oxygen intermediates (ROI), reactive nitrogen intermediates (RNI), and cytokines are frequent companions at sites of acute inflammation. Previous work has established a clear link between the production of cytokines and the subsequent generation of ROI and RNI. However, more recent data indicates that ROI and RNI not only serve as end-stage effector molecules of pathogen destruction and tissue injury, but also as initiators of acute inflammation. Specifically, ROI and RNI will upregulate cytokine gene expression since antioxidants inhibit interleukin 8 (IL-8) production and do not decrease production of other cytokines. Treatment with hydroxyl radical scavengers such as dimethyl sulfoxide (DMSO) will decrease the production of IL-8 in stimulated human whole blood, fibroblasts, type II epithelial cells, and hepatoma cells, but not other cytokines. Addition of exogenous ROI will increase IL-8 production in these same cells. Inhibition of nitric oxide synthase will decrease production of IL-8, whereas addition of nitric oxide (NO)-generating compounds will increase production of IL-8. The hydroxyl radical appears to be the final common pathway of cell activation for IL-8 synthesis, since DMSO will inhibit the NO-driven production of IL-8. Our data indicate that ROI and RNI can serve as intracellular second messengers to induce IL-8 gene expression.
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PMID:Regulation of cytokine gene expression by reactive oxygen and reactive nitrogen intermediates. 861 91

Iron-regulatory proteins (IRP1 and IRP2) are RNA-binding proteins that bind to stem-loop structures known as iron-responsive elements (IREs). IREs are located in the 5'- or 3'-untranslated regions (UTRs) of specific mRNAs that encode proteins involved in iron homeostasis. The binding of IRPs to 5' IREs represses translation of the mRNA, whereas the binding of IRPs to 3' IREs stabilizes the mRNA. IRP1 and IRP2 binding activities are regulated by intracellular iron levels. In addition, nitric oxide (NO.) increases the affinity of IRP1 for IREs. The role of NO. in the regulation of IRP1 and IRP2 in rat hepatoma cells was investigated by using the NO.-generating compound S-nitroso-N-acetylpenicillamine (SNAP), or by stimulating cells with multiple cytokines and lipopolysaccharide (LPS) to induce NO. production. Mitochondrial and IRP1 aconitase activities were decreased in cells producing NO(.). NO. increased IRE binding activity of IRP1, but had no effect on IRE binding activity of IRP2. The increase in IRE binding activity of IRP1 was coincident with the translational repression of ferritin synthesis. Transferrin receptor (TfR) mRNA levels were increased in cells treated with NO.-generating compounds, but not in cytokine- and LPS-treated cells. Our data indicate that IRP1 and IRP2 are differentially regulated by NO. in rat hepatoma cells, suggesting a role for IRP1 in the regulation of iron homeostasis in vivo during hepatic inflammation.
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PMID:Differential regulation of IRP1 and IRP2 by nitric oxide in rat hepatoma cells. 863 20

We have previously reported that the Kupffer cell has antitumor activity through mitochondrial damage to tumor cells by nitric oxide production. In this study, the effect of chronic ethanol feeding on antihepatoma cell activity of the Kupffer cell was examined in rats. Male rats of the Wistar strain were fed ethanol chronically for 8 weeks by liquid diets. Kupffer cells were isolated from the control rat or the ethanol-fed rat, and cocultured with AH 70 cells, a rat hepatoma cell line. Fluorescence of rhodamine 123 or propidium iodide was observed as indicators of the mitochondrial damage or cell membrane injury, respectively, by a laser scanning confocal microscopy. Mitochondrial damage of AH 70 cells as indicated by reduction of rhodamine 123 fluorescence was smaller by the coculture with Kupffer cell from the ethanol rat than that from the control. Cell membrane barrier dysfunction of AH 70 cell was less frequently observed with the Kupffer cell from ethanol-fed rats. A metabolite of nitric oxide (nitrite and nitrate) was less in the cultured medium with the ethanol Kupffer cell than with the control Kupffer cell. Ca2+ mobilization, which induces inducible nitric oxide synthase and observed by the fluorescence of fluo-3, in Kupffer cells cocultured with AH 70 cells was suppressed in ethanol-fed rats. These result suggests that chronic ethanol feeding suppresses antitumor cell activity of Kupffer cell through the impairment of Ca2+ mobilization and nitric oxide production.
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PMID:Effect of chronic ethanol feeding on Kupffer cell-mediated antitumor cell activity. 865 94

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