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)

Some aldehydes, produced during lipid peroxidation of liver lipids, are able to inhibit the respiration of mitochondria and of intact cells both in normal hepatocytes and in Yoshida hepatoma. In mitochondria, the respiratory stimulation produced by addition of ADP and dinitrophenol is decreased more in hepatoma than in normal liver. Two- to four-fold higher concentrations of aldehydes are needed to obtain the same degree of inhibition in normal liver mitochondria as in tumorous organs. The effect of aldehydes on intact cell respiration is absent or very low in hepatocytes, but it is consistently observed in hepatoma cells.
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PMID:The effect of various aldehydes on the respiration of rat liver and hepatoma AH-130 cells. 400 85

Treatment of hepatoma AH 7974 cells with dimethyl sulfate led to a marked accumulation in vivo of mono)ADP-ribosyl)-histone H1A, H1B, H1 and H2B, respectively. In these conjugates, most of the modifying groups were linked to the acceptor proteins by an 'unusual' bond not described so far for ADP-ribosyl histone conjugates. It resisted treatment with 3M hydroxylamine, 0.1M picrylsulfonate and mild alkali, which excluded a linkage through carboxyl or guanidino residues. The stability of these conjugates formed endogenously differed also from 'non-enzymic' histone H1 conjugates formed by incubation of free ADP-ribose with the histone. Histone-linked mono(ADP-ribosyl) residues synthesized in hepatoma cells in response to alkylation were located exclusively in the domains that interact with DNA, i.e. in the non-globular C-terminal tail of histone H1 and in the N-terminus of histone H2B. Besides poly(ADP-ribosyl)ation, the modification of histones by single ADP-ribose groups may represent an independent process to modulate DNA/histone interaction.
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PMID:Alkylation-induced mono(ADP-ribosyl)-histones H1 and H2B. Hydroxylamine-resistant linkage in hepatoma cells. 402 97

A clone of cells in which the regulation of purine metabolism is genetically altered was selected and isolated from chemically mutagenized HTC cells (a line of rat hepatoma cells in continuous culture). The clone, designated MAU V, was selected for increased ability to salvage exogenous purines by isolating it in medium containing methylmercaptopurine ribonucleoside, adenine, and uridine, in which medium wild-type cells cannot divide. We have characterized these cells as having an increased rate of de novo purine biosynthesis, apparently as the result of an altered phosphoribosylpyrophosphate (PRPP) synthetase. The altered enzyme has normal catalytic properties but an altered sensitivity to feedback inhibition by purine and pyrimidine nucleotides. The types of inhibitions (competitive and uncompetitive) exerted by AMP, ADP, and TDP on the wild-type enzyme have been maintained in the altered enzyme, but values for K(i) have been increased by factors of 10, 17.5, and 5, respectively. The specific catalytic activities of AMP: pyrophosphate phosphoribosyltransferase and IMP:pyrophosphate phosphoribosyltransferase are normal. The mutant cell may serve as a model for a specific human disease, one type of dominantly inherited overproduction hyperuricemia.
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PMID:Characterization of a feedback-resistant phosphoribosylpyrophosphate synthetase from cultured, mutagenized hepatoma cells that overproduce purines. 435 85

Cyclic stimulation by Ca(2+) of respiration in mitochondria isolated from Ehrlich ascites-tumour cells occurs only when low phosphate concentrations (approx. 0.5mm) are also included in the incubation system. Under these circumstances the extra oxygen consumed is related stoicheiometrically to the amount of Ca(2+) taken up by the mitochondria; the values are similar to those obtained with mitochondria from rat liver in the absence of added phosphate. In contrast with liver mitochondria, up to 280nmol of Ca(2+)/mg of protein can be added to ascites mitochondria without causing any deleterious effect. Respiration in mitochondria isolated from the Yoshida ascites hepatoma (HA 130) and from the Morris hepatomas 5123C and 9618A is also stimulated by Ca(2+) in a cyclic manner. However, that in mitochondria from regenerating rat liver responds to Ca(2+) in the same way as those from normal rat liver. ADP-stimulated respiration in mitochondria from Ehrlich ascites tumour cells, but not from rat liver, is inhibited by low amounts of Ca(2+).
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PMID:The role of mitochondria in modifying the cellular ionic environment. Calcium-induced respiratory activities in mitochondria isolated from various tumour cells. 437 56

In rat hepatoma cells the synthetic glucocorticoid dexamethasone causes a 3-fold increase in the activity of the plasma membrane enzyme alkaline phosphodiesterase I (oligonucleat 5'-nucleotidohydrolase, EC 3.1.4.1). The data are consistent with an induction phenomenon mediated by the glucocorticoid receptor involved in tyrosine aminotransferase induction. The effect on alkaline phosphodiesterase I is not a reflection of a general membrane effect of dexamethasone, because the activity of three other enzymes of the plasma membrane is unaffected. On the other hand, nucleoside diphosphatase (nucleoside diphosphate phosphohydrolase acting on ADP) activity is inhibited. Thus, two more enzymes sensitive to glucocorticoids have been identified in a cell line in which these hormones influence only very few gene products. This paper describes enzymatic changes in the plasma membrane of rat hepatoma cells in which glucocorticoids normalize a number of membrane-associated processes that are considered to be characteristic of transformed cells.
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PMID:Glucocorticoid hormones increase the activity of plasma membrane alkaline phosphodiesterase I in rat hepatoma cells. 610 83

The cytotoxicity of 6-thioguanine and 6-mercaptopurine to cultured lymphoblasts and fibroblasts was strongly antagonized by pretreatment of the cells with 100 microM adenosine. Administration of adenosine 2 hours after the antipurine agent did not cause antagonism. In two rat hepatoma cell lines, adenosine pretreatment did not protect cells from the antipurines. Treatment of lymphoblasts or fibroblasts with 100 microM adenosine gave increases up to 150% in cellular ATP and ADP and decreases greater than 80% in UTP and UDP. In the hepatoma lines, adenine nucleotides did not increase by greater than 45%, and uridine nucleotides did not decrease by greater than 40% following adenosine treatment. The selective protection of the normal cells from 6-thioguanine and 6-mercaptopurine was probably the consequence of phosphoribosylpyrophosphate (PRPP) depletion, since adenosine pretreatment decreased PRPP pools by greater than 90% in the normal cells but by only 30% in the malignant hepatoma cells. In the absence of PRPP the antipurines would not be metabolically activated. The selectivity of the adenosine and antipurine combinations was probably attributable to the low activity of adenosine kinase and high activities of adenosine deaminase and PRPP synthetase characteristic of malignant hepatomas.
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PMID:Biochemical approaches to enhancement of antitumor drug selectivity: selective protection of cells from 6-thioguanine and 6-mercaptopurine by adenosine. 616 56

The intracellular transport of newly synthesized beta-subunits of the F1-ATPase (beta F1) and of newly synthesized ADP/ATP carrier was followed in isolated rat hepatoma cells. As tested by rapid fractionation of [35S]methionine pulse- and pulse-chase-labeled cells and by sensitivity of labeled polypeptides to externally added protease, the import of beta F1 into mitochondria was strongly inhibited by the additional low concentrations of rhodamine 6G (R6G). In contrast, the import of the ADP/ATP carrier into mitochondria was not affected by the inhibitor. The results imply that the proteolytic processing of the precursor of beta F1 is coupled to its translocation across the mitochondrial membrane.
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PMID:Coupling between proteolytic processing and translocation of the precursor of the F1-ATPase beta-subunit during its import into mitochondria of intact cells. 623 46

The biosynthesis of two mitochondrial membrane proteins - subunit IV of cytochrome oxidase and ADP/ATP translocator protein was studied in intact ascites hepatoma cells. Using pulse-chase labeling and rapid cell fractionation it was possible to identify the precursoric forms of these inner mitochondrial membrane proteins. It was found that the subunit IV of cytochrome oxidase is synthesized in the cytoplasm of mammalian cells in the form of a larger precursor while ADP/ATP translocator protein is synthesized in the form that is electrophoretically undistinguishable from the mature membrane integrated form.
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PMID:Synthesis and intracellular transport of cytochrome oxidase subunit IV and ADP/ATP translocator protein in intact hepatoma cells. 630 38

The efflux of adenine nucleotides from three human tumor mitochondria has been investigated with mitochondria prelabeled with radioactive ATP. Uncouplers induce a large efflux of adenine nucleotides from mitochondria from human hepatoma and oat cell carcinoma while efflux from astrocytoma mitochondria is less. This efflux does not require exchangeable anions, i.e., adenine nucleotides or pyrophosphate, in the extramitochondrial medium, and is not sensitive to atractyloside. The efflux is more extensive with dinitrophenol and CCCP than with valinomycin-K+, and may account for the differential effects of the two types of uncouplers on uncoupler-stimulated ATPase of tumor mitochondria previously reported by us. Dinitrophenol and CCCP do not elicit any efflux of adenine nucleotides from normal liver mitochondria. Efflux of orthophosphate from tumor mitochondria is also greater with dinitrophenol and CCCP; however, the more interesting finding is that the concentration of orthophosphate in these mitochondria is unusually high, i.e., 10-40-times greater than the intramitochondrial phosphate concentration of liver mitochondria. Atractyloside sensitive transport of ATP and ADP in human tumor mitochondria has also been determined. Vmax values for both ADP and ATP transport are lower than those obtained with liver mitochondria, especially with ADP transport. ATP transport in tumor mitochondria is not affected by CCCP in contrast to the 4-5-fold stimulation observed in liver mitochondria.
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PMID:Characteristics of adenine nucleotide fluxes and transport in human tumor mitochondria. 632 Aug 71

The AS-30D rat hepatoma cell line is characteristic of that class of rapidly growing tumors which exhibit high rates of aerobic glucose utilization and lactic acid production (Bustamante, E., Morris, H.P., and Pedersen, P.L., J. Biol. Chem., 256: 8699-8704, 1981). In this study, we have examined the coupling properties of the mitochondria in intact AS-30D hepatoma cells and the relative contributions of cytoplasmic (glycolytic) and mitochondrial compartments to total cellular ATP production in the presence of glucose and glutamine. All respiration in AS-30D cells was inhibited by inhibitors of mitochondrial electron transport, ruling out significant rates of respiration from other cellular components. Moreover, cellular respiration was found to be coupled to phosphorylation of ADP, as demonstrated by its inhibition by oligomycin and aurovertin, inhibitors of the mitochondrial ATP synthetase (F0F1-ATPase). When intact cells were supplied with glucose as the only added energy source, it was estimated that about 60% of the total cell ATP was derived from glycolysis and 40% from oxidative phosphorylation. Addition of physiological concentrations of glutamine in the presence of glucose had little effect on the relative contributions of glycolysis and oxidative phosphorylation to total cellular ATP production. In the absence of added glucose, glutamine alone could maintain the same ATP production rates by supporting mitochondrial oxidative phosphorylation. It is concluded that, in the AS-30D hepatoma cell line, glucose is the preferred energy source, with the larger portion of ATP production being supplied by glycolytic reactions. Although oxidative substrates such as glutamine can replace glucose in maintaining total cell ATP production, they do not appear to be the major fuel sources when hepatoma AS-30D cells are exposed to concentrations of substrates which occur in vivo.
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PMID:Contributions of glycolysis and oxidative phosphorylation to adenosine 5'-triphosphate production in AS-30D hepatoma cells. 649 33

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