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)

To examine the cellular mechanism responsible for impaired insulin action in ageing, we determined various in-vitro parameters involved in the pathogenesis of insulin resistance, i.e. basal and insulin-stimulated [14C]3-O-methylglucose transport (3OMG), 125I-labelled insulin binding, activation of insulin receptor kinase (IRKA) in intact cells, and number and subcellular distribution of glucose transporters in subcellular membrane fractions of adipocytes from 6- (FR-6) and 24- (FR-24) month-old Fischer rats. Ageing had no effect on basal 3OMG (12 +/- 4 vs 13 +/- 3 fmol/5 x 10(4) cells, means +/- S.E.M.); in contrast, in FR-24 rats insulin-stimulated 3OMG was markedly decreased by 43% when compared with that in FR-6 rats (158 +/- 14 vs 90 +/- 8 fmol/5 x 10(4) cells; P less than 0.01). Insulin binding to adipocytes from FR-6 rats was 2.40 +/- 0.38% compared with 2.28 +/- 0.47% in FR-24 (P not significant). Moreover, ageing had no significant effect on IRKA, as determined by insulin-stimulated (0, 1, 4 and 500 ng insulin/ml) 32P-incorporation into histone 2B. In subcellular membrane fractions, low density microsomes and plasma membranes, glucose transporter numbers were determined using [3H]cytochalasin B binding and immunodetection using an antiserum against the C-terminal peptide of the hepatoma-G2-glucose transporter. Cytochalasin B binding revealed that in the basal state the intracellular pool of glucose transporters was depleted in FR-24 by about 39% compared with low density microsomes from FR-6: (48.6 +/- 7.2 vs 29.8 +/- 5.5 pmol/mg membrane protein; P less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Potential mechanism of insulin resistance in ageing: impaired insulin-stimulated glucose transport due to a depletion of the intracellular pool of glucose transporters in Fischer rat adipocytes. 216 28

The H1 histone subtype H1 (0) is a characteristic component of the chromatin of several mammalian tissues. Since H1 (0) is synthesized in nondividing cells upon terminal differentiation, it has been mostly considered either as a prerequisite for or as a consequence of an arrest of DNA replication during the process of differentiation. In several H1 (0)-expressing systems studied until now, inducers of differentiation or inhibitors of DNA synthesis cause an increase of the ratio between H1 (0) and the other H1 proteins. We have studied the steady-state levels of histone H1 (0) mRNA under varied growth conditions in the human hepatoma cell lines HepG2 and Hep3B, and we show in the HepG2 system that H1 (0) is not confined to resting cells, that the H1 (0) gene appears to be expressed throughout the cell cycle and that established inducers of de novo H1 (0) synthesis fail to cause a further increase of the high H1 (0) level. This constitutive expression of H1 (0) appears to reflect the chromatin structure of the liver cells, from which the HepG2 hepatoblastoma cells initially may have evolved. In contrast to the situation in nondividing adult liver cells, the H1 (0) gene is transcribed in HepG2 at a high level, and this expression is compatible with DNA replication.
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PMID:The expression of the histone H1 (0) gene in the human hepatoma cell line HepG2 is independent of the state of cell proliferation. 216 51

Growth-associated H1 histone kinase, a homolog of the yeast cdc2+/CDC28 protein kinases that control entry into mitosis, is a chromatin-bound cyclic nucleotide-independent enzyme found only in growing cells. In a procedure involving salt extraction of chromatin, ammonium sulfate precipitation, and three chromatographic steps, the enzyme has been purified greater than 10,000-fold from Novikoff hepatoma cells. Enzyme purified by this procedure catalyzes the transfer to H1 histone of 2.7 mumol of phosphate/min/mg, a specific activity within the range of those reported for a number of homogeneous or nearly homogeneous protein kinases. Further purification to near homogeneity was achieved by an additional step of sucrose density gradient fractionation. Enzyme activity in the sucrose gradient is associated with two polypeptides of apparent Mr 60,000 and 33,000 on sodium dodecyl sulfate-gel electrophoresis. Substrate specificity studies show that in addition to H1, proteins with H1-like structure and function including histone H1(0), the erythrocyte-specific H5 histone, and the testis-specific H1t histone are phosphorylated. Nucleosome core histone H3, high mobility group proteins 1, 2, 14, and 17, protamine, casein, and ribosomal protein S6 are not substrates.
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PMID:Purification and characterization of growth-associated H1 histone kinase from Novikoff hepatoma cells. 217 Mar 62

The immunochemical localization of hamster liver nucleolar antigens in subcellular fractions (nuclei, 10,000 x g pellet, 100,000 x g pellet and supernatant), nuclear substructures (chromatin, nuclear matrix, nuclear envelope, nucleoli, RNP particles and nucleosomes), and three classes of nonhistone chromosomal proteins with different affinities to DNA (NHCP1, NHCP2 and NHCP3) from nuclease-sensitive and nuclease-resistant chromatin fractions of hamster liver were studied. Six main nucleolar antigens with mol. wts 27,000; 29,000; 30,000; 36,000; 45,000; and 46,000 were found in subcellular fractions, nuclear substructures and classes of non-histone proteins of hamster liver. The antigens with mol.wts of approx. 27,000; 29,000; and 36,000 which were absent in hamster pancreas, spleen and Kirkman--Robbins hepatoma nuclei, seem specific for liver tissue.
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PMID:Cellular distribution of the hamster liver specific nucleolar antigens. 217 45

1. High molecular weight non-histone proteins (NHP) were isolated from Morris hepatoma 7777 by Sephadex G-100, S-200 chromatography. 2. Specific polyclonal antibodies were raised against these NHP in rabbits. These antibodies recognized specific NHP components present in Morris hepatoma 7777 and 8994, but not in normal rat liver. Hepatoma-associated antigens are phosphoproteins. 3. Immunologically specific NHP of Morris hepatoma are intensively concentrated in nuclear matrix fraction.
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PMID:Hepatoma-associated non-histone proteins are phosphoproteins preferentially localized in nuclear matrix. 228 65

A non-histone protein with mol. wt of 48,000 differentially expressed in normal and tumour cells was identified using immunological criteria. Antibodies were raised against a component specific for Kirkman-Robbins hepatoma of mol. wt about 48,000 separated from hepatoma non-histone proteins by preparative electrophoresis in polyacrylamide gel. It was demonstrated by immunoblotting that Morris hepatoma 7777 and Ehrlich ascites cells share an antigenic non-histone protein with Kirman-Robbins hepatoma. Tumour cells when compared with normal cells, i.e. hamster and rat liver, are characterized by significant enrichment of this component. Intracellular distribution of the polypeptide with mol. wt 48,000 suggests that this component may be a structural protein the biosynthesis of which increases or the antigenic determinants of which change in tumour cells.
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PMID:Identification of a nuclear antigen with molecular weight of 48,000 differentially expressed in tumour and normal cells. 235 Aug 66

1. Non-histone chromatin protein fractions NHCP1 and NHCP2 eluted from hydroxyapatite with 50 and 100 mM phosphate buffer (pH 6.8) from nuclei of Kirkman-Robbins hepatoma from 4th, 7th and 9th day of growth were analysed by one- and two-dimensional gel electrophoresis as well as Western blot technique in the presence of antibodies elicited against NHCP1, NHCP2 and dehistonized chromatin of hamster hepatoma and liver. 2. The presence of electrophoretically and immunologically specific components among NHCP1 and NHCP2 fractions during Kirkman-Robbins hepatoma growth was stated.
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PMID:Growth-related changes of non-histone chromatin proteins from Kirkman-Robbins hepatoma. 258 55

Cycloheximide injection of rats results in the activation of a protein kinase that phosphorylates 40 S ribosomal protein S6. This Ca2+/cyclic nucleotide-independent kinase exhibits chromatographic properties that are indistinguishable from the S6 kinase in H4 hepatoma cells whose activity is stimulated by insulin and growth factors and the S6 kinase that is activated during liver regeneration. The enzyme has been purified 50,000-fold to near homogeneity: a critical step in purification employs a peptide affinity column using a synthetic peptide corresponding to the carboxyl-terminal 32-amino acid residues of mouse liver S6, which encompasses all S6 phosphorylation sites. The purified enzyme is a 70,000-dalton polypeptide that is reactive with azido-ATP. In addition to 40 S ribosomal S6 and the synthetic peptide, the S6 kinase catalyzes rapid phosphorylation of a number of other protein substrates including histone H2b, glycogen synthase, and ATP citrate lyase; this last protein is phosphorylated by S6 kinase in vitro on the same serine residue that is phosphorylated in response to insulin and epidermal growth factor in intact hepatocytes. Moreover, the S6 kinase catalyzes the phosphorylation of a number of hepatic nonhistone nuclear proteins. This S6 kinase probably underlies the increased hepatic S6 phosphorylation observed after cycloheximide treatment, which in turn corresponds to the mitogen-activated S6 kinase.
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PMID:Purification of a hepatic S6 kinase from cycloheximide-treated Rats. 276 46

In view of various reports describing differences in histone acetylation between normal rat liver and hepatomas, the behaviour of histone acetyltransferase (EC 2.3.1.48) activity was elucidated in normal rat liver and in a spectrum of well-characterized rat hepatomas of slow, intermediate and rapid growth rates. In all tumours the acetyltransferase specific activity, expressed as nmol h-1 mg total protein-1, was higher than in the corresponding normal livers and the rise correlated positively with the proliferation rates of the tumors. No difference is observed if acetyltransferase activity is expressed per milligram of histone. This is explained by elevated ratios of histones and of DNA to total protein in the hepatomas compared to the ratios in normal liver. Electrophoretic analysis of [3H]acetate-labeled histones revealed similar patterns in hepatoma and normal liver. The extent of histone H4 acetylation, as indicated by the frequency distribution of non-, mono-, di-, tri-, and tetraacetylated H4-species, was found to be identical in hepatomas and normal liver. The histone protein and acetate labeling patterns were near normal in the slowly growing hepatomas.
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PMID:Histone acetyltransferase activity in rat hepatomas. 280 81

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


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