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)

Seryl/threonyl-protein kinases in cytosolic and particulate fractions from rat liver and AH-13, a rat ascites hepatoma, have been studied by chromatographing these fractions on DEAE-cellulose and assaying the eluates with casein, phosvitin, histone and protamine as substrates. Liver cytosolic fraction contains a group of well-characterized seryl/threonyl-protein kinases, namely, casein kinases I and II and histone kinases I and II. Liver particulate fraction, on the other hand, is almost totally devoid of casein kinase I and histone kinase I but contains an additional peak of casein kinase tentatively designated casein kinase III. In AH-13, cytosolic casein kinase I is markedly increased and particulate-associated casein kinases II and III are moderately increased as compared with liver. Moreover, it was found that in AH-13, the histone kinase I level is high in the particulate fraction but markedly decreased in the cytosolic fraction. It is suggested that particulate-associated histone kinase I may be of cytosolic origin.
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PMID:Casein and histone kinases of a rat ascites hepatoma as compared with those of rat liver. 300 7

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

Homogeneous catalytic subunit from the cAMP-dependent protein kinase, when derivatized with a fluorophore, was used as a cytochemical probe to locate intracellular sites of the protein kinase regulatory subunit. After conjugation, the fluoresceinated catalytic subunit (F:C), derivatized to a stoichiometry of approximately 1 mol/mol, retained near full activity as judged by specific activity and by titration against either regulatory subunit or Inhibitor Protein of the protein kinase. With this molecular probe the dissociated regulatory subunit was localized by direct cytochemistry in Reuber H-35 hepatoma cells that had been exposed, while intact, for 0-120 min to 10(-4) M 8-Br-cAMP. After stimulation, cultures were fixed and washed and then incubated for 16 h with F:C. Following 8-Br-cAMP stimulation, extensive binding of the probe to both cytoplasmic and nucleolar sites was observed. This binding was diminished but not eliminated when 50 microM cAMP was present during the incubation of the fixed cells with F:C that was eliminated by a 40-fold molar excess of underivatized catalytic subunit but not by heat-denatured catalytic subunit, and was not reduced by a 20-fold molar excess of cGMP-dependent protein kinase, examined plus or minus cGMP. Collectively, the results allow the conclusion that the F:C probe binds free regulatory subunit. The time course of its change with 8-Br-cAMP (measured as the difference between binding in the presence or absence of cAMP during the postfixation treatment) mirrors that previously reported for changes in the catalytic subunit in these cells, also identified cytochemically (Byus, C. V., and Fletcher, W.H. (1982) J. Cell Biol. 93, 727-734). The binding of the F:C probe, detected when cAMP is present during postfixation treatment, may possibly represent binding to free Inhibitor Protein of the cAMP-dependent protein kinase. If so, it was at a level of approximately 20% of the maximal level of detectable regulatory subunit, and it also showed cytosolic and nucleolar localization.
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PMID:Cytochemical identification of the regulatory subunit of the cAMP-dependent protein kinase by use of fluorescently labeled catalytic subunit. Examination of protein kinase dissociation in hepatoma cells responding to 8-Br-cAMP stimulation. 300 8

The beta-subunit of the insulin receptor possesses a tyrosine-specific protein kinase activity which may play a role in coupling insulin binding to insulin action. Previously, we have identified a substrate for the receptor-associated protein kinase in a cell-free system. This endogenous substrate (pp120), which appeared to be a glycoprotein with an apparent mol wt of 120,000, was detected in rat liver microsomes. In the present work, we have demonstrated that pp120 is localized to a highly purified preparation of rat liver plasma membranes (Neville preparation). Moreover, pp120 appears to be specific to liver, having been detected in liver from rat, monkey, and rabbit, but not in rat brain, skeletal muscle, heart, kidney, or adipocytes. As a preliminary to addressing the question of whether insulin stimulates phosphorylation of pp120 in intact cells, we have sought to identify tissue culture cell lines that contain both insulin receptors and pp120. We have succeeded in identifying pp120 in two cell lines derived from rat liver: 1) H35 hepatoma cells (Reuber hepatoma) and 2) rat hepatocytes transformed with a temperature-sensitive mutant form of SV-40 (cultivated at both permissive and nonpermissive temperatures). In conclusion, pp120 appears to be a liver-specific plasma membrane glycoprotein which serves as a substrate for phosphorylation by the insulin receptor-associated protein kinase in a soluble cell-free system. The presence of pp120 in cultured cell lines will facilitate investigation of whether the phosphorylation of pp120 in intact cells is physiologically regulated in response to insulin.
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PMID:Tissue distribution and subcellular localization of an endogenous substrate (pp 120) for the insulin receptor-associated tyrosine kinase. 301 74

We have previously shown that in rat H4 hepatoma cells insulin enhances the nuclear transcription of p33 mRNA in a dose- and time-dependent manner, with no alteration in mRNA half-time (t1/2). Presumably, this effect is mediated by the cell surface receptor. In this report, we have investigated the effect of putative insulin mediator fractions which act to control metabolic events on p33 mRNA accumulation in these cells. Initial experiments originally demonstrated an insulin-like effect of an added putative metabolic fraction to enhance p33 mRNA concentrations. However, when the fetal calf serum supply was changed, the effect of insulin remained, but that of added mediator was no longer observed. After a series of experimental approaches designed to alter the permeability of the cell membrane, it was found that in the presence of increased Ca2+, the effect of mediator could again be observed. The present data demonstrate that the partially purified cAMP-dependent protein kinase/adenylate cyclase inhibitory putative mediator fractions from liver and muscle enhance p33 mRNA accumulation in intact H4 hepatoma cells by a mechanism that is differentiated from that of insulin. The action of the putative mediator is inhibited by cycloheximide, while the action of insulin itself is not. These results suggest that insulin may control nuclear transcription by multiple signaling mechanisms. Alternatively, the added putative metabolic mediator may not enter the cell in the presence of cycloheximide or is inactive as such within the cell and must first be converted to an active species by a step requiring protein synthesis.
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PMID:Insulin and a putative insulin metabolic mediator fraction from liver and muscle stimulate p33 messenger ribonucleic acid accumulation by apparently different mechanisms. 304 71

PLC/PRF/5 hepatoma cells cultured with a tumor promoter teleocidin showed polygonal cellular appearance with many vacuole-like structures, and reduced both c-myc mRNA level and growth rate. These teleocidin effects were partly mimicked by sodium butyrate but not by a protein kinase C stimulant 1-oleoyl-2-acetylglycerol(OAG). Protein kinase C inhibitor 1-(5-isoquinolinyl-sulfonyl)-2-methyl-piperazine(H7), calmodulin-dependent protein kinase antagonist N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide(W7) and topoisomerase II inhibitor novobiocin failed to inhibit the effects of teleocidin. These results may suggest the presence of still unknown biochemical pathways which mediate the actions of teleocidin.
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PMID:Effects of teleocidin on the morphology and c-myc expression of hepatoma cells which are not inhibited by protein kinase antagonists. 310 17

Both insulin and phorbol esters rapidly stimulated the cytoplasmic accumulation of a specific mRNA (designated p33) in a time- and dose-dependent manner in serum-deprived rat H4 hepatoma cells. When cells were pretreated with phorbol esters to produce a deficiency in protein kinase-C, the ability of further phorbol ester addition to stimulate p33 mRNA accumulation was abolished. However, after pretreatment of H4 cells with phorbol esters, insulin still induced cellular p33 mRNA concentrations, but to a lesser degree. The primary effect of phorbol esters was to increase transcription of the p33 gene, and this was abolished after pretreatment with phorbol esters. In previous work, insulin was shown to stimulate p33 gene transcription, but this effect was insufficient to account for the level of insulin-induced p33 mRNA production. The transcriptional effect of insulin was further reduced by phorbol ester pretreatment. Insulin must, therefore, regulate p33 gene expression by at least two pathways, at least one of which may be modulated by protein kinase-C.
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PMID:Transcriptional regulation of a rat hepatoma gene by insulin and protein kinase-C. 328 95

Insulin treatment enhances casein kinase II (CKII) activity in 3T3-L1 mouse adipocytes and H4-IIE rat hepatoma cells, the magnitude of the activation varying from 30% to 150%. Activation of CKII was apparent after 5 min of exposure of 3T3-L1 cells to insulin, was maximal by 10 min, and persisted through 90 min. The insulin-stimulated activity was inhibited by low concentrations of heparin and was stimulated by spermine. Activation of CKII was effected by physiological concentrations of insulin (EC50 = 0.15 nM), suggesting that the effect is a true insulin response and not one mediated through insulin-like growth factor receptors. Epidermal growth factor (100 ng/ml for 10 min) also activated CKII in A431 human carcinoma cells, which is consistent with other observations that insulin and epidermal growth factor may have some common effects. Insulin stimulation of CKII activity was due to an increase in the maximal velocity of the kinase; the apparent Km for peptide substrate was not altered. Enhanced activity did not appear to result from increased synthesis of CKII protein, because cycloheximide did not block the effect and because an immunoblot developed with antiserum to CKII showed no effect of insulin on the cytosolic concentration of CKII. Because insulin-stimulated CKII activity was maintained after chromatography of cell extracts on Sephadex G-25, it is unlikely that the effect is mediated by a low-molecular-weight activator of the kinase. Rather, the results are consistent with the possibility that insulin activates CKII by promoting a covalent modification of the kinase.
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PMID:Activation of casein kinase II in response to insulin and to epidermal growth factor. 332 Oct 56

Insulin and tumor-promoting phorbol esters such as phorbol 12-myristate 13-acetate (PMA) share some biological activities in normal hepatocytes and in some lines of cultured hepatoma cells. To investigate the possibility that some of these common effects might involve a common pathway, we examined the effects of insulin and PMA on several biological processes in normal and protein kinase C-deficient H4IIE rat hepatoma cells. Protein kinase C deficiency was achieved by preincubating the cells in high concentrations of PMA, and was documented by direct enzyme measurement in soluble and particulate cellular fractions, and by analysis of immunoreactive protein kinase C concentrations in whole cellular homogenates. In the protein kinase C-deficient cells, the following actions of insulin remained at near normal levels: stimulated phosphorylation of the ribosomal protein S6; activation of a ribosomal S6 protein kinase; and increases in ornithine decarboxylase activity and mRNA accumulation. PMA stimulated all of these responses in the normal cells, but none of them in the PMA-pretreated cells. We conclude that insulin can exert some of its actions in a normal manner in protein kinase C-deficient H4IIE hepatoma cells (ATCC CRL 1548) and that some of the actions insulin holds in common with PMA may be due to common activation of one or more distal pathways. A candidate for such a distal step is activation of the ribosomal protein S6 protein kinase.
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PMID:Insulin action in normal and protein kinase C-deficient rat hepatoma cells. Effects on protein phosphorylation, protein kinase activities, and ornithine decarboxylase activities and messenger ribonucleic acid levels. 333 10

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


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