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)

In experiments in vitro on ascites tumor cells of Ehrlich carcinoma and Zajdela hepatoma the author studied the effect of 2,4-dinitrophenol (an agent dissociating respiration from phosphorylation) on respiration, glycolysis, resynthesis of ATP and synthesis of basic fractions of cytoplasmic RNA by the incorporation of labeled 3N-uridine precursor. It was shown that under optimum conditions of tumor cell incubation (phosphate-rich Igle medium) in the presence of 6.10(-4) M DNP a sharp activation of anaerobic glycosis is observed as well as increased O2 absorption and high level of ATP. Blocked phosphorylation associated with respiration renders no appreciable effect on the biosynthesis of basic fractions (4 S, 18 S, 28 S) of cytoplasmic RNA.
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PMID:[RNA biosynthesis in the ascitic cells of Ehrlich's carcinoma and Zajdela's hepatoma under conditions of blocked oxidative phosphorylation]. 19 51

Ca2+ facilitated the fusion by Sendai virus of Friend erythroleukaemic cells and Ehrlich ascites tumour cells but not that of hepatoma tissue culture cells. In the absence of Ca2+ Sendai virus caused the complete depletion of ATP and abolished protein synthesis in Friend erythro-leukaemic cells fused with each other. Addition of high concentrations of Ca2+ (10-20 mM) partially protected the cells from ATP depletion. After a further incubation of cells in complete medium plus 0.2 mM adenine, ATP levels and protein synthesis were restored to 60-85% of those of the untreated control. The protective effect of Ca2+ was used to improve the ultramicroinjection method which involves the fusion of human erythrocyte ghosts with cells. When human erythrocyte ghosts containing high K+ were fused with Friend erythroleukaemic cells in the presence of 10 mM Ca2+ ATP levels and protein synthesis after recovery were about 60-85% of the control. Friend erythroleukaemic cells subjected to ultramicroinjection under these conditions had a cloning efficiency of 75-95% of that of the untreated controls. In these experiments 70-100% of the cells had fused with ghosts. Induction of haemoglobin synthesis by dimethylsulphoxide was unimpaired in cells subjected to ultramicroinjection under the same conditions.
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PMID:Role of Ca2+ in preserving viability of Friend erythroleukaemic cells after ultramicroinjection. 20 56

Hydrolysis of extramitochondrial ATP by coupled Zajdela hepatoma mitochondria is not stimulated by uncouplers of oxidative phosphorylation. The results of the present study show that the hydrolysis of intramitochondrial ATP in these mitochondria is stimulated by DNP and CCCP. It is proposed that the uncoupler insensitivity of ATPase in coupled Zajdela hepatoma mitochondria with exogenous ATP as a substrate result from an altered functional relationship between ATPase and ADP, ATP translocase.
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PMID:Mitochondrial adenosine triphosphatase of Zajdela hepatoma. III. Effect of uncouplers on the hydrolysis of intramitochondrial ATP. 20 77

Adenosine deaminase and adenosine kinase have been measured in rat liver, 12 transplantable hepatomas, regenerating, foetal and neonatal liver, adult and neonatal rat kidney and 2 transplantable kidney tumours. Adenosine, deaminase activity, relative to the normal liver value, was elevated 2-4 fold in hepatomas of rapid growth rate, was in the normal range in more slowly growing hepatomas and in regernerating liver, and was low in foetal and neonatal liver. Adenosine kinase activity was decreased, relative to rat liver values, in all the hepatomas; activity of this enzyme gave a negative correlation with tumour growth rate. Kinetic properties of the two enzymes were examined in partially purified preparations. Adenosine deaminases from both liver and rapidly growing hepatoma 3924A were subject to weak product inhibition by inosine. Adenosine kinase from liver and hepatoma 3924A was inhibited by the reaction products ADP and AMP, and the enzyme was also subject to excess substrate inhibition by concentrations of ATP in excess of 1 mM. In rat hepatoma cell lines growing in culture, the toxicity of adenosine correlated inversely with the ratio of adenosine deaminase activity to adenosine kinase activity. Chromatographic measurements showed that hepatoma cells incorporated less extracellular adenosine into their adenine nucleotide pools than did isolated liver cells. These results indicate that increased adenosine deaminase activity and decreased adenosine kinase activity may confer a selective advantage upon the cancer cell.
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PMID:Adenosine deaminase and adenosine kinase in rat hepatomas and kidney tumours. 20 96

Adenylate cyclase can be resolved into at least two protein components, neither of which by itself catalyzes the formation of cyclic AMP with Mg-ATP as substrate. Mixture of the two reconstitutes Mg-ATP-dependent, fluoride- and Gpp(NH)p-stimulable activity. One, a heat-labile, N-ethylmaleimide-sensitive protein of molecular weight 190,000 can catalyze cyclic AMP formation with Mn-ATP as substrate, and is therefore proposed to be the catalytic moiety of the adenylate cyclase complex. The other protein (or proteins) is more resistant to heating or N-ethylmaleimide, and is proposed to confer upon the catalyst the ability to ultilize Mg-ATP as substrate. It is also required for the regulation of that activity by guanine nucleotides, hormones, and probably fluoride ion. The catalytic protein is found in a phenotypically adenylate cyclase-deficient (AC-) variant of S49 lymphoma cells. The thermostable regulatory protein can be resolved from the catalyst by heat treatment or N-ethylmaleimide treatment of plasma membranes of wild-type S49 cells, rat or rabbit liver, or avian erythrocytes, and is also found in a phenotypically adenylate cyclase-deficient hepatoma cell line. Mixture of AC- S49 membranes, which contain the beta-adrenergic receptor, with a crude detergent-solubilized preparation of the regulatory protein reconstitutes hormone-stimulable adenylate cyclase activity. Binding of the regulatory protein to the membranes is a time- and temperature-dependent process that requires an activating ligand of the adenylate cyclase system [fluoride, Gpp(NH)p].
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PMID:Identification and partial characterization of some components of hormone-stimulated adenylate cyclase. 23 86

Poly(A) polymerase (EC 2.7.7.19) solubilized from mitochondria of a poorly differentiated rat tumor, Morris hepatoma 3924A, was purified more than 1000-fold by successive column chromatography on phosphocellulose, DEAE-Sephadex, and hydroxylapatite. Purified enzyme catalyzed the incorporation of ATP into poly(A) only upon addition of an exogenous primer. Of several primers tested, synthetic poly(A) was the most effective. The enzyme utilized mitochondrial RNA as a primer at least five times as efficiently as nuclear RNA. The enzyme required Mn2+, and had a pH optimum of 7.8-8.2. The enzyme utilized ATP exclusively as a substrate; the calculated K-m for ATP was 28 muM. The polymerization reaction was not inhibited by RNase, ethidium bromide, distamycin, or alpha-amanitin. The reaction was sensitive to O-n-octyloxime of 3-formylrifamycin SV (AF/013). As estimated from glycerol gradient centrifugation and acrylamide gel electrophoresis in the presence of sodium dodecyl sulfate, the molecular weight of the enzyme was 60,000. The product was covalently linked to the polynucleotide primer and the average length of the poly(A) formed was 600 nucleotides.
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PMID:Mitochondrial poly(A) polymerase from a poorly differentiated hepatoma: purification and characteristics. 23 43

The behavior of the activity of arginyl-tRNA synthetase (L-arginine : tRNAArg Ligase(AMP-forming), EC 6.1.1.19) was determined in extracts of rat liver: normal adult, normal proliferating (from developing and from partially hepatectomized rats), and neoplastic (hepatomas of different growth rates) and in extracts of rat kidney cortex and transplantable kidney tumors. The Km values for arginine, ATP, and tRNA of the enzyme of the rapidly growing hepatoma 3924A were the same as those of the enzyme from the liver of control rats. The pH optima of the control and neoplastic livers were in the same range of 7.25-8.0. Taking the hepatic specific activity for arginyl-tRNA synthetase as 100%, deep layer of gut, thymus and testis had higher activity; renal cortex and spleen had the same activity; and skeletal muscle, brain, heart, lung, superficial layer of gut and adipose tissue had lower activity. In a wide spectrum of hepatomas of different growth rates, a significant increase of 1.4-2.4-fold in arginyl-tRNA synthetase activity was observed when compared with that of liver of control normal rats. This elevation in enzyme activity in hepatomas appears to be specific to neoplasia, since it is unaltered in regenerating and low in differentiating liver. The increase in arginyl-tRNA synthetase in the liver tumors appears to be transformation-linked, since the activity was increased in all hepatomas, even in the slowest growing ones. Furthermore, the increase in enzyme activity was not limited to hepatic neoplasms, since a rise was also observed in transplantable rat kidney tumors. Thus, the reprogramming of gene expression in neoplastic tissue entails an increase in arginine-tRNA synthetase activity.
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PMID:Neoplastic transformation-linked alterations in arginyl-tRNA synthetase activity. 42 64

The zero-trans uptake of purines and pyrimidines was measured in suspensions of Novikoff rat hepatoma, mouse L, P388 mouse leukemia, and Chinese hamster ovary cells by a rapid kinetic technique which allows the determination of uptake time points in intervals as short as 1.5 s. Kinetic parameters for purine/pyrimidine transport were determined by measuring substrate influx into cells in which substrate conversion to nucleotides was negligible either due to lack of the appropriate enzymes or to depletion of the cells of ATP (5'-phosphoribosylpyrophosphate), and by computer fitting exact, integrated rate equations derived for various carrier-mediated transport models directly to zero-trans influx data. The results indicate that different carriers function in the transport of hypoxanthine/guanine, adenine, and uracil with substrate:carrier association constants (K) at 24 degrees C of 300 to 400 muM, 2 to 3 mM, and about 14 mM, respectively, for Novikoff cells. K and Vmax for hypoxanthine transport by L and P388 cells are similar to those for Novikoff cells, but the transport capacity of Chinese hamster ovary cells is much lower and K = 1500 muM. All transport systems are completely symmetrical. Hypoxanthine transport is so rapid that an intracellular concentration of free hypoxanthine (90%) close to that in the medium is attained within 20 to 50 s of incubation at 24 degrees C, at least at extracellular concentrations below K. In cells in which conversion to nucleotides is not blocked free hypoxanthine accumulates intracellularly to steady state levels with equal rapidity and thereafter the rate of hypoxanthine uptake into total cell material is strictly a function of the rate of phosphoribosylation. The low Km systems for hypoxanthine (1 to 9 muM) and adenine (0.2 to 40 muM) uptake detected previously in many types of cells reflect the substrate saturation of the respective phosphoribosyltransferases rather than of the transport system.
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PMID:Purine and pyrimidine transport and phosphoribosylation and their interaction in overall uptake by cultured mammalian cells. A re-evaluation. 42 88

1. The metabolism of exogenous N-acetylglucosamine (GlcNAc) in rat kidney extracts was greatly stimulated by fructose 1,6-diphosphate (Fru-1,6-P2) and to a lesser extent by phosphoenolpyruvate. They served as a generator of ATP. Under these conditions, the majority of metabolized GlcNAc was recovered in the form of glycolytic intermediates. 2. The metabolism of exogenous GlcNAc in rat liver extracts was stimulated by phosphoenolpyruvate but not by Fru-1,6P2. With phosphoenolpyruvate present, most of the metabolized GlcNAc was recovered as sialic acid. 3. The metabolism of exogenous GlcNAc in rat hepatoma (AH-130) extracts was stimulated by Fru-1,6-P2 and to a lesser extent by phosphoenolpyruvate. Even with phosphoenolpyruvate present, the synthesis of sialic acid was extremely small. In these respects, hepatoma extracts resemble kidney extracts rather than those of liver.
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PMID:Metabolism of exogenous N-acetylglucosamine in extracts of rat kidney, liver and hepatoma. 43 12

The aldolase activity was measured using two substrates fructose-I-phosphate (FIP) and fructose-1,6-diphosphate (FDP) in the supernatant fraction of homogenates of different mice organs (liver, muscle, brain) and hepatoma tissues during growth of hepatoma 22a. Kinetic parameters Km and Vmax were calsulated. The most essential changes in the activity of aldolase were found during the latent and terminal stares of the hepatoma development. The changes in the aldolase activity observed during development of hepatoma 22a were characterized by altered substrate specificity VFDP /VFIP activity gatio). This ratio was not changed distinctly in liver tissue; in muscles the value decreased from 50 (tumor-free control) to 15 during terminal stages; in brain, to the contrary, it was increased from 20 to 50. The values of Km, Vmax and VFDP /VFIP were similar both in the hepatoma at the eleventh day and in normal brain tissue. The specific inhibition of FDP aldolase activity by ATP was found. Substitution of aldolase B by aldolase AC apparantly ossurred in hepatoma 22a. The data obtained suggest that alteration in the parameters studied may be due to variation in the ration of isozymes.
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PMID:[Change in aldolase activity in the organs of mice in the process of hepatoma 22a development]. 49 46

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