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)

Intracellular and extracellular levels of 3':5'-cyclic GMP and 3':5'-cyclic AMP were studied in synchronized Novikoff rat hepatoma cells. Intracellular levels of cyclic GMP increased spontaneously from 2-fold (without colcemid) to 10-fold (with colcemid), in proportion to the number of cells in mitosis. As cells entered mitosis, cellular cyclic AMP declined simultaneously with the rise in cyclic GMP. These reciprocal changes in cyclic nucleotide levels were reversed as cells passed out of metaphase and through anaphase. Maximum cyclic AMP and minimum cyclic GMP concentrations occurred during G-1. Less marked reciprocal fluctuations in both cyclic nucleotides were also found in S-phase and early G-2, where the ratio of cyclic AMP to cyclic GMP concentrations first fell and then increased. These changes in cyclic nucleotide ratios were closely correlated with major cell-cycle transitions at the boundaries between G-1/S-phase, S-phase/G-2, G-2/prophase, and metaphase/anaphase. Most, but not all, of the extracellular cyclic nucleotides were extruded when cells traversed mitosis. Colcemid or vinblastine completely prevented the appearance of extracellular cyclic AMP but augmented the appearance of extracellular cyclic GMP in parallel with the accumulation of mitotic cells. These results reflected changes in intracellular cyclic nucleotides and indicated that increased intracellular turnover of cyclic GMP and cyclic AMP occurred before and after metaphase, respectively. Elevated cyclic GMP levels during mitosis and S-phase are consistent with potential modulatory roles for this cyclic nucleotide in proliferation.
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PMID:Cell-cycle-related changes of 3':5'-cyclic GMP levels in Novikoff hepatoma cells. 6 82

Oxidative metabolism (OM) of paracetamol was studied in 19 patients with hepatocellular carcinoma (HCC), 39 with chronic hepatitis B virus infection (CHBV) and 26 healthy controls. Paracetamol (1.5 g) was given and the subsequent 24 h urine collection assayed for paracetamol and its metabolites by HPLC. HCC patients showed greatly increased OM, as reflected by the combined fractional recoveries of mercapturic acid and cysteine conjugates (22%), in comparison with controls (7%) and CHBV patients (10%). As the cytochrome P-450 dependent OM of xenobiotics has been implicated in carcinogenesis, it is interesting that two CHBV patients also had increased OM.
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PMID:Increased oxidative metabolism of paracetamol in patients with hepatocellular carcinoma. 185 Oct 52

The delivery of insulin and the insulin receptor into an intracellular compartment may be important for eliciting some of the biologic responses of the cell to the hormone. Internalization of insulin-receptor complexes in cells from hyperinsulinemic type II diabetic patients is diminished, suggesting a possible role for this cellular process in insulin resistance. To examine whether hyperinsulinemia contributes to defective insulin-receptor processing in vitro, cultured hepatoma cells (HepG2) were incubated with high concentrations of (500 ng/ml) insulin from 1-3 days. Insulin induced a decrease in the number of total and surface insulin receptors within 24 hours; however, the hormone did not mediate a change in the number of intracellular receptors. The cellular itinerary of control and down-regulated receptors were then compared. Insulin mediated internalization of down-regulated receptors was impaired compared to control receptors; however, the down-regulated receptors that were internalized recycled back to the plasma membrane more efficiently. By covalently labeling the insulin receptor with the photoactive insulin derivative, 125I-NAPA-DP-insulin, it was demonstrated that the rates of receptor degradation of down-regulated and control receptors were similar. These results suggest that incubating HepG2 cells with high concentrations of insulin alters the cellular itinerary of the insulin receptor.
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PMID:Down-regulated insulin receptors in HepG2 cells have an altered intracellular itinerary. 215 9

Paracetamol and its major ultimate reactive metabolite, N-acetyl-p-benzoquinone imine (NAPQI) were studied for their genotoxic potential. Neither paracetamol nor NAPQI were found to cause mutations in Salmonella typhimurium, whereas NAPQI was severely cytotoxic to the bacteria. Radiolabelled paracetamol was found to bind covalently to DNA added to mouse-liver microsomal incubations at a rate of 2.6 pmoles/mg DNA/min. Paracetamol also bound covalently to hepatic DNA at a level of 15 pmoles/mg DNA after a hepatotoxic dose of paracetamol to mice. NAPQI caused extensive DNA single-strand breaks as evidenced by alkaline elution of DNA from treated Reuber hepatoma cells. This effect occurred at concentrations which later resulted in cytotoxicity. Paracetamol was shown to induce increased DNA-repair synthesis in isolated mouse-liver cells in monolayer culture, at concentrations where also cytotoxicity was evident. Increased DNA-repair synthesis occurred at lower paracetamol concentrations in cells isolated from mice pretreated with phenobarbital. Taken together, these data show that paracetamol can cause DNA interaction leading to damage at levels which are cytotoxic.
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PMID:Genotoxicity studies with paracetamol. 638 77

Acetaminophen (APAP) when administered in excess can cause severe hepatic necrosis in vivo. To study the mechanism of APAP toxicity and the role of cytochrome P450, a previously established human hepatoma HepG2 subline, MVh2E1-9, that constitutively expresses human CYP2E1 was used as a model. At high concentrations (above 5 mM) and when intracellular reduced glutathione (GSH) was depleted, APAP caused severe cytotoxicity in MVh2E1-9, but not in MV-5 cells which lack CYP2E1. The APAP cytotoxicity was dependent on the concentration of APAP and time of exposure, and could be blocked by 4-methylpyrazole, ethanol, diallyl sulfide, N-acetylcysteine and N-t-butyl-alpha-phenylnitrone, but not by propylgallate, an inhibitor of lipid peroxidation. Significantly more 14C-labeled APAP protein adduct was detected in MVh2E1-9 cells than MV-5 cells, especially after depletion of GSH. The formation of the APAP adducts could be inhibited by the same agents which prevent APAP cytotoxicity. At a lower concentration (1-2 mM), APAP inhibited proliferation in both MVh2E1-9 and the control MV-5 cells to similar extents. This antiproliferative action of APAP did not require depletion of GSH as did the cytotoxic action of APAP. These data suggest that APAP has a dual toxic effect on MVh2E1-9 cells: a P450-independent antiproliferative effect and the CYP2E1-dependent cytotoxic effect. These results demonstrate the ability of human CYP2E1 to activate APAP to reactive metabolites which form covalent protein adducts and cause toxicity to a hepatoma cell line.
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PMID:Cytotoxicity of acetaminophen in human cytochrome P4502E1-transfected HepG2 cells. 779 Nov 25

Acetaminophen (APAP) induced a concentration-dependent (0-30 mM) cytotoxic effect in human HepG2 hepatoma cells which was significantly increased when intracellular reduced glutathione (GSH) content was decreased. The cytotoxic effect of APAP (0-30 mM) was significantly lower in a day 3-treated compared to day 1-treated HepG2 cells. A 3-day preincubation of HepG2 cells with 5 microM 3-methylcholanthrene (3MC), 50 microM rifampicin (RFP) or 1 mM isoniazid (INH) significantly increased 15-30 mM APAP cytotoxicity, of about 15-20% for INH and RFP and 35-50% for 3MC. The cytotoxicity of 10 mM APAP was also increased (about 20%) by a 3-day preincubation with INH but was not affected by 3MC and RFP. INH induced a concentration-dependent (0-40 mM) cytotoxic effect in day-1 treated HepG2 cells and not significantly affected by decreases in intracellular GSH concentrations. INH was not cytotoxic in day 3-treated HepG2 cells. A 3-day preincubation of HepG2 cells with 50 mM RFP or 1 mM INH significantly increased 10-40 mM INH cytotoxicity, respectively of about 10% and 10-25%. A 3-day preincubation with 3MC did not modify the cytotoxic effect of INH at these concentrations. This is to our knowledge the first report of increases by INH and RFP of APAP of INH cytotoxicity in vitro in hepatocellular cells of human origin. It is in accordance with clinical observations of severe hepatotoxicity associated with APAP or INH usage in patients receiving multiple drug therapy (INH, RFP) for tuberculosis or in alcoholics.
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PMID:Rifampicin and isoniazid increase acetaminophen and isoniazid cytotoxicity in human HepG2 hepatoma cells. 902 73

A toxic dose of acetaminophen (APAP) reduces the activity of NF-kappaB in mouse liver. NF-kappaB inactivation may be important for APAP toxicity, as this transcription factor can play a central role in maintaining hepatic viability. We recently reported that APAP likewise inhibits serum growth factor activation of NF-kappaB in a mouse hepatoma cell line (Hepa 1-6 cells). Here we present evidence that APAP's antioxidant activity may be involved in this NF-kappaB inhibition in Hepa 1-6 cells. Like the antioxidants N-acetylcysteine (NAC) and pyrrolidinedithiocarbamate (PDTC), APAP was found to suppress the H(2)O(2)-induced oxidation of an intracellular reactive oxygen species probe (dihydrodichlorofluorescein) in Hepa 1-6 cells. Treatment of Hepa 1-6 cells with H(2)O(2) was sufficient for NF-kappaB activation and IkappaBalpha degradation, and APAP was able to block both of these events. The APAP inhibition of NF-kappaB activation by serum growth factors may also be due to APAP's antioxidant activity, as the antioxidants NAC and PDTC likewise inhibit this activation. The potential role of NF-kappaB and oxidant-based growth factor signal transduction in APAP toxicity is discussed.
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PMID:Acetaminophen inhibits NF-kappaB activation by interfering with the oxidant signal in murine Hepa 1-6 cells. 1082 69

Cell-cell adhesiveness, involving the adherens junction system including homophilic adhesion of cadherin and intracellular catenins, is a critical factor for tumor cell invasion and metastasis. We evaluated the levels of E-cadherin and beta-catenin in hepatoma cell sublines with high and low metastatic capacities. Stimulation of these cells with serum growth factors for more than 3 h after 24 h of starvation caused decreases in levels of E-cadherin and beta-catenin in the subline with high metastatic capacity, G-5. In contrast, no significant changes were observed in the subline with low metastatic capacity, G-1. Concomitantly with the decreases in E-cadherin and beta-catenin levels, G-5 cells were dissociated and detached from the culture dish, although G-1 cells again showed no morphological alterations. These in vitro results reflected the in vivo metastatic potencies of these hepatoma sublines, and further suggested the importance of the adherens junction system in determining metastatic potency of these parenchymal tumor cell lines as in epithelial/endothelial tumors.
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PMID:Correlation between metastatic potency and the down-regulation of E-cadherin in the mouse hepatoma cell lines G-1 and G-5. 1085 34

The mechanism of cell growth was investigated in GIT medium-supplemented in vitro assay using high and low metastatic mouse hepatoma cell sublines, G-5 and G-1, respectively. G-5 cells exhibited high growth rate compared to G-1 cells. The PI3-kinase inhibitor LY294002 and P70 S6 kinase inhibitor rapamycin partially blocked both G-1 and G-5 cell growth, suggesting that these two kinases are involved in hepatoma cell growth. In contrast, the MEK1 inhibitor PD98059 partially blocked G-5 cell growth but not G-1 cell growth. MAP kinases (MAPK) in both G-1 and G-5 cells were indistinguishably phosphorylated, yet MEK-dependent MAPK activation was observed only in G-5 cells. In G-1 cells, MAPK was phosphorylated in a manner not connected to MEK activation. Thus, the low degree of cell growth in G-1 cells was attributable to disruption of the MEK-dependent MAPK cascade. However, the molecular mechanism whereby MAPK phosphorylation does not parallel MAPK activation in G-1 cells remains unknown. Here, we suggest that there may be an as yet unidentified MAPK phosphorylation pathway in malignantly transformed cells, which may affect in vivo cell growth and metastatic capacities of cancers.
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PMID:Participation of a MEK-independent pathway in MAP kinase activation and modulation of cell growth in mouse hepatoma cell lines. 1089 59

By transfection of an expression vector of human cytochrome P450 2E1 (CYP2E1) into a human hepatoma cell line (HLE), a new cell line (HLE/2E1) that stably expresses activity of CYP2E1 has been established. The HLE/2E1 cell line expressed a higher level of CYP2E1 messenger ribonucleic acid than did the mother HLE cell line. CYP2E1 enzyme activity determined by a p-nitrophenol oxidation assay was also higher in HLE/2E1 cells than in HLE cells. In addition, the enzyme activity of the HLE/2E1 cells was increased by ethanol treatment. Exposure to acetaminophen (APAP) or buthionine sulfoximine (BSO) caused a greater decrease in viability of the HLE/2E1 cells than that of the HLE cells, as determined by the 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide assay. The cytotoxicity of APAP or BSO to HLE/2EI cells was inhibited by the addition of ethanol or vitamin E. However, the cytotoxicity of both APAP and BSO was enhanced by 24-h preincubation of HLE/2E1 cells with ethanol. These results show that this cell line provides a useful model for studying catalytic properties of CYP2E1 and cytotoxic mechanisms of chemicals metabolized by CYP2E1.
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PMID:Establishment of a human hepatoma cell line, HLE/2E1, suitable for detection of p450 2E1-related cytotoxicity. 1121 41

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