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)

Employing Reuber rat hepatoma cells, H4-II-E, the effects of aflatoxin B1 (AFB1) and sterigmatocystin (STC), which exhibit a similar cytotoxicity but a marked difference in hepatocarcinogenicity, on the hormonal induction of tyrosine aminotransferase (TAT), on glucocorticoid receptors, and on their nuclear acceptor sites were investigated. AFB1 strongly inhibited hydrocortisone-inducible TAT activity. The IC50 value was 0.2 micrograms/ml. AFB1 also showed weak inhibitory effects on insulin- and dibutyryl cyclic AMP-inducible TAT activities. In contrast, the IC50 of STC on hydrocortisone-inducible TAT activity was 3.5 micrograms/ml, about 10 times higher than that of AFB1. Dibutyryl cyclic AMP- and insulin-inductions were not depressed by STC. AFB1 inhibited the formation of cytosolic glucocorticoid receptor-hormone complexes (GRCs) but STC did not. Moreover, AFB1, activated in vitro by the microsomal cytochrome P-450 system, interfered more markedly in the formation of cytosolic GRCs than STC did. Sucrose density gradient analysis of GRCs and Scatchard analysis revealed that AFB1 and STC mainly impaired glucocorticoid receptors and GRC-acceptor sites, respectively. The present data suggest a marked difference between AFB1 and STC with regard to the inhibition of hormonal induction of liver specific enzymes.
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PMID:Modulation of hormonal induction of tyrosine aminotransferase and glucocorticoid receptors by aflatoxin B1 and sterigmatocystin in Reuber hepatoma cells. 290 Jun 79

Treatment of H-4 rat hepatoma cells with 8-bromo-cyclic AMP (8-Br-cAMP) resulted in a transient induction of the gluconeogenic enzyme tyrosine aminotransferase. Synthesis of tyrosine aminotransferase and the level of its corresponding mRNA peaked 2 h after the addition of the cyclic nucleotide and declined thereafter. Tyrosine aminotransferase synthesis and mRNA failed to respond to the readdition of fresh 8-Br-cAMP, a process which we defined as desensitization. Removal of 8-Br-cAMP resulted in a decrease in tyrosine aminotransferase synthesis and mRNA, a process defined as de-induction. The relative transcription rate of the tyrosine aminotransferase gene and the turnover of its mRNA were determined by labeling intact cells with [3H]uridine. 8-Br-cAMP led to an increase in the rate of tyrosine aminotransferase transcription which was sustained for at least 4 h. The transcription rate declined upon de-induction. In addition, 8-Br-cAMP increased the turnover rate of tyrosine aminotransferase mRNA, but only after a 1.5-3 h time lag. This increased degradation rate persisted for at least 1.5 h after the removal of 8-Br-cAMP. These two contrasting and temporally distinct processes could account for the observed changes in tyrosine aminotransferase mRNA levels in response to 8-Br-cAMP treatment and removal.
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PMID:Increased turnover of the messenger RNA encoding tyrosine aminotransferase can account for the desensitization and de-induction of tyrosine aminotransferase by 8-bromo-cyclic AMP treatment and removal. 290 63

Two systems in vitro are described that show insulin-stimulated phosphorylation of the insulin receptor on serine residues. In the first system, insulin receptor was purified partially from Fao rat hepatoma cells by direct solubilization of the cells in Triton X-100 and chromatography on wheat-germ-agglutinin-agarose. Phosphorylation of these preparations with [gamma-32P]ATP in the presence or absence of insulin resulted in 32P incorporation exclusively into phosphotyrosine residues. Serine kinase activity towards the insulin receptor was reconstituted by adding extracts of Fao cells. Prior exposure of the cells to insulin stimulated serine kinase activity towards the insulin receptor in extracts 7.2-fold. A receptor serine kinase activity enhanced by treatment of cells with cyclic AMP analogues was also retained in the reconstituted system. In the second system, insulin receptor and insulin-sensitive serine kinase activity towards the insulin receptor were co-purified from human placenta. The protocol involved preparation of membranes, before solubilization and chromatography on wheat-germ-agglutinin-agarose, by using gentle procedures designed not to disrupt a potentially labile association between the insulin receptor and the serine kinase. Serine kinase activity in these preparations towards the insulin receptor was stimulated up to 10-fold by insulin, and the stoicheiometry of serine phosphorylation was estimated to be approx 0.8 mol/mol of insulin receptor for phosphorylations performed in the presence of insulin. Thus a preparation of insulin receptor is described for the first time that is phosphorylated to high stoicheiometry on serine in an insulin-dependent manner. Conditions that facilitate recovery and assay of serine kinase activity are defined and discussed. These systems provide a basis for characterizing the nature of the insulin-sensitive serine kinase that phosphorylates the insulin receptor, and defining its role in insulin action and control of receptor function.
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PMID:Two systems in vitro that show insulin-stimulated serine kinase activity towards the insulin receptor. 296 79

The regulation of the insulin receptor kinase by phosphorylation and dephosphorylation has been examined. Under in vitro conditions, the tyrosine kinase activity of the insulin receptor toward histone is markedly activated when the receptor either undergoes autophosphorylation or is phosphorylated by a purified preparation of src tyrosine kinase on tyrosine residues of its beta subunit. The elevated kinase activity of the phosphorylated insulin receptor is readily reversed when the receptor is dephosphorylated with alkaline phosphatase. Analysis of tryptic digests of phosphorylated insulin receptor using reverse-phase high pressure liquid chromatography suggests that phosphorylation of a specific tyrosine site on the receptor beta subunit may be involved in the mechanism of the receptor kinase activation. Further studies indicate that tyrosine phosphorylation-mediated increase in insulin receptor activity also occurs in intact cells. Thus, when the histone kinase activities of insulin receptor from control and insulin-treated H-35 hepatoma cells are assayed in vitro following the purification of the receptors under conditions which preserve the phosphorylation state of the receptors, the insulin receptors extracted from insulin-treated cells exhibit histone kinase activities 100% higher than those from control cells. The elevated receptor kinase activity from insulin-treated cells appears to result from the increase in phosphotyrosine content of the receptor. Taken together, these results indicate that tyrosine phosphorylation of the insulin receptor beta subunit exerts a major stimulatory effect on the kinase activity of the receptor. Insulin receptor partially purified by specific immunoprecipitation from detergent extracts of control and isoproterenol-treated cells have similar basal but diminished insulin-stimulated beta subunit autophosphorylation activities when incubated with [gamma-32 P]ATP. Similarly, the ability of insulin to stimulate the receptor beta subunit phosphorylation in intact isoproterenol-treated adipocytes is greatly attenuated, whereas, the basal phosphorylation of the insulin receptor is slightly increased by the beta-catecholamine. These data indicate that in rat adipocytes, a cyclic AMP-mediated mechanism, possibly through serine and threonine phosphorylation of the receptor or its regulatory components, may uncouple the receptor tyrosine kinase activity from activation by insulin. Treatment of 32P-labeled H-35 hepatoma cells with phorbol myristate acetate (PMA) results in a marked increase in serine phosphorylation of the insulin receptor beta subunit.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of insulin receptor kinase by multisite phosphorylation. 300 Apr 58

Glucagon resistance has been reported in rat hepatoma models. We studied the responses to glucagon challenge in 35 patients with hepato-cellular carcinoma. They have increased cyclic AMP and decreased glucose responses to glucagon (2 mg) challenge when compared with normal controls. Possible explanations for increased cyclic AMP responses include special membrane properties of hepatoma cells and increased adrenergic stimulation of adenylate cyclase during hypoglycemia. Decreased glucose responses are most apparent in patients with overt hypoglycemia. This may be related to a number of postulates, including depleted glycogen store of liver, impaired glycogenolysis, fatty metamorphosis, or insulin-like activities secreted by hepatoma. In this study, the increased cyclic AMP responses do not support the postulation that glucagon receptors are damaged in hepatocellular carcinoma.
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PMID:Anomalous adenosine cyclic 3':5'-monophosphate responses to glucagon in patients with hepatocellular carcinoma. 300 21

Insulin is thought to influence some metabolic events by decreasing the intracellular concentration of cyclic AMP (cAMP). To test whether this explains the repression of hepatic phosphoenolpyruvate carboxykinase (PEPCK) by insulin we measured intracellular cAMP, cAMP-dependent protein kinase, mRNAPEPCK, and PEPCK gene transcription in cultured Reuber H4IIE hepatoma cells treated with forskolin with and without insulin. In untreated cells, the concentration of cAMP was 2.9 pmol/mg of protein. Forskolin at 1, 10, and 50 microM increased the level of cAMP to 9.2, 35.8, and 115 pmol/mg of protein, respectively; 5 nM insulin had no significant effect on these cAMP concentrations. In untreated cells, the activity ratio of cAMP-dependent protein kinase was 0.43, and 50 microM forskolin increased this to 0.96; insulin had no effect on this ratio at times from 15-180 min. In untreated cells mRNAPEPCK bound 15 cpm of a 32P-labeled cDNA probe per microgram of total cellular RNA. Forskolin, at 1, 10, and 50 microM increased this to 48, 96, and 115 cpm/microgram RNA. Insulin (5 nM), in combination with 0, 1, 10, and 50 microM forskolin, decreased the concentration of mRNAPEPCK to 5, 8, 23, and 29 cpm/micrograms RNA, respectively. Finally, the rate of transcription of the PEPCK gene was 85, 168, 630, 823, and 884 parts per million (ppm) in H4IIE cells treated for 30 min with 0, 1, 5, 10, and 50 microM forskolin, respectively, while the corresponding rates in the presence of 5 nM insulin were 49, 45, 84, 85, and 136 ppm.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Insulin decreases H4IIE cell PEPCK mRNA by a mechanism that does not involve cAMP. 300 46

The amounts of mitomycin C (MMC) taken up into rat ascites hepatoma cells were determined by measuring the decrease in the absorbance of the incubation medium at 363 nm. The extracellular concentration of MMC decreased progressively in AH130 cell suspension and no peaks other than MMC were detected by analytical high-performance liquid chromatography (HPLC). Isoproterenol (IPN) enhanced the uptake of MMC into AH44 and AH130 cells but not AH13 cells in which the uptake increased by N6,O2'-dibutyryl cyclic adenosine 3':5'-monophosphate (dibutyryl cyclic AMP). The increase of uptake of MMC by IPN was inhibited by propranolol and the uptake of MMC increased in a dose-dependent manner by theophylline in AH130 cells. The maximum combined cytotoxicity was observed when AH130 cells were treated with IPN at 10(-7) M for 30 min before the exposure to MMC and, in this pretreatment condition, the uptake of MMC was enhanced in parallel with the increase of cyclic adenosine 3':5'-monophosphate (cyclic AMP) level in the cells. On the other hand, MMC, which had no stimulating effect on the intracellular cyclic AMP level, nevertheless maintained a high level of intracellular cyclic AMP elevated by IPN for a longer period than in the treatment with IPN alone and prolonged the period of acceleration of the uptake of MMC. In the in vivo combined treatment with IPN and MMC, the life span of AH44-bearing rats was prolonged and 2 out of 6 rats were cured, while the mean survival time of the rats treated with MMC alone was 11.3 d.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enhancement of mitomycin C uptake by isoproterenol in rat ascites hepatoma. 302 Feb 22

Protein degradation in Reuber H35 hepatoma monolayers was measured as release of radioactive trichloroacetic acid-soluble material from intracellular protein labelled with [3H]leucine for 16 hr followed by 3-hr chase period. Proteolysis in this system was stimulated by physiological concentration of glucagon reaching a maximum at 10(-7) M with an increase of 30%. Dibutyryl cyclic AMP also had a stimulatory effect. When both glucagon and dibutyryl cyclic AMP were present at optimal concentrations, their effects were not additive suggesting that glucagon may act via the formation of cyclic AMP. In the presence of protein synthesis inhibitor, cycloheximide or puromycin, proteolysis remained responsive to glucagon. Glucagon counteracted the inhibitory effect of insulin on proteolysis.
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PMID:Stimulation by glucagon and adenosine-3',5'-cyclic monophosphate of protein degradation in Reuber H35 hepatoma monolayers. 303 17

A glycophospholipid has been purified from rat liver membranes and shown to copurify with an insulin-sensitive glycophospholipid isolated from H35 hepatoma cells. The polar head group of this glycophospholipid is a phospho-oligosaccharide generated by treatment with phosphatidylinositol-specific phospholipase C from Staphylococcus aureus. It has been proposed that this phospho-oligosaccharide, which is also generated in response to insulin, may play a role in insulin action. Incubation of the catalytic subunit of cyclic AMP-dependent protein kinase with this phospho-oligosaccharide inhibited the activity of the kinase to phosphorylate histone IIA, a purified preparation of phospholipid methyltransferase and kemptide, a phosphate-accepting peptide. Inhibition of kinase activity was dose-dependent and 50% inhibition of histone phosphorylation was demonstrated with a concentration of phospho-oligosaccharide of around 2 microM. This effect was demonstrated in the presence of ATP at concentrations up to 1 mM, indicating that the phospho-oligosaccharide acts at physiological concentrations of ATP and that it does not compete with this nucleotide for the same binding site in the kinase. Inhibition by the phospho-oligosaccharide of kinase activity could be reversed by dilution or dialysis and was not reproduced by up to 50 microM myo-inositol, glucosamine, galactose, myo-inositol 1-phosphate, glucosamine 1-phosphate, galactose 1-phosphate or phosphorylcholine. The inhibitory activity was resistant to mild acid treatment but was labile to treatment with alkali, exposure to nitrous acid or incubation with sodium periodate. The phospho-oligosaccharide had no effect on the phosphorylation of lysine-rich histone by rat brain protein kinase C and on the binding of cyclic AMP to a cyclic AMP-dependent protein kinase. In conclusion, the data in this study suggested that a phospho-oligosaccharide generated from an insulin-sensitive glycophospholipid may play a role in insulin action by modulating cyclic AMP-dependent protein kinase activity.
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PMID:Inhibition of cyclic AMP-dependent protein kinase by the polar head group of an insulin-sensitive glycophospholipid. 333 45

The highly active alcohol dehydrogenase (EC 1.1.1.1) in rat hepatic tumor cells (HTC) was purified 120-fold by chromatography on DEAE-Sepharose and AMP-Agarose to yield an enzyme with a specific activity of 88 mumole/min/mg protein, assayed with 1.7 mM NAD+ and 0.55 M ethanol at pH 9 and 30 degrees C. (By comparison, purified, normal rat liver enzyme has an activity of about 1 unit/mg.) Based on its physical and kinetic properties, we conclude that the HTC isozyme is the same as the enzyme from rat stomach and another rat hepatoma (Cederbaum AI, Pietruszko R, Hempel J, Becker FF, and Rubin E (1975) Arch Biochem Biophys 171:348-360). The kinetics of the HTC enzyme are consistent with the Ordered Bi Bi mechanism. The kinetic constants are generally much larger for the HTC enzyme than for the normal rat liver enzyme. The Michaelis constants for ethanol and acetaldehyde (Kb = 1100 mM, Kp = 260 mM) are 1000-fold larger, and the constants for NADH are 10 to 50-fold larger. Although the HTC enzyme has low catalytic efficiency (V/Kb) on ethanol, it has much better activity on longer chain alcohols, but no activity on cyclohexanol. The pH dependence of V/Kb with ethanol is unusual in that it appears to be a linear function of pH, increasing with a slope of 0.56. Thus, the active sites of the liver and HTC enzymes may be different, although the HTC enzyme is inactivated by bromoacetate and bipyridine as is found for the liver enzyme. The HTC (stomach) enzyme may function to oxidize high concentrations of ingested ethanol or longer chain alcohols.
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PMID:Characterization of alcohol dehydrogenase from cultured rat hepatoma (HTC) cells. 361 21

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