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)

Nuclear membranes from many tumors contain an unusual redox chain discovered originally in the Hepatoma 22a nuclear membranes which catalyzes superoxide dismutase-sensitive adrenaline oxidation to adrenochrome in the presence of either NADPH or NADH as electron donor, the reaction being inhibited by cyanide and azide. This redox chain can reduce anthracycline antitumor antibiotics adriamycin and carminomycin to their free radical states under anaerobic conditions. Evidence has been obtained for a higher stability of the carminomycin radical as compared to that of adriamycin. Operation of the nuclear membrane-bound redox chain can be a source of oxygen radical-mediated single strand breaks in DNA. The role of the nuclear membrane-associated electron transfer chain in augmenting the anticancer action of the anthracycline antibiotics is discussed.
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PMID:An unusual NAD(P)H-dependent O2-.-enerating redox system in hepatoma 22a nuclei. 285 29

It has been proposed that hexokinase bound to mitochondria occupies a preferred site to which ATP from oxidative phosphorylation is channeled directly (Bessman, S. (1966) Am. J. Medicine 40, 740-749). We have investigated this problem in isolated Zajdela hepatoma mitochondria. Addition of ADP to well-coupled mitochondria in the presence of an oxidizable substrate initiates the synthesis of glucose 6-phosphate via bound hexokinase. This reaction is only partially inhibited by oligomycin, carboxyatractyloside, carbonyl cyanide m-chlorophenylhydrazone (CCCP) or any combination of these, suggesting a source of ATP in addition to oxidative phosPhorylation. This source appears to be adenylate kinase, since Ado2P5, an inhibitor of the enzyme, suppresses hexokinase activity by about 50% when added alone or suppresses activity completely when added together with any of the inhibitors of oxidative phosphorylation. Ado2P5 does not uncouple oxidative phosphorylation nor does it inhibit ADP transport (state 3 respiration) or hexokinase. The relative amount of ATP contributed by adenylate kinase is dependent upon the ADP concentration. At low ADP concentrations, glucose phosphorylation is supported by oxidative phosphorylation, but as the adenine nucleotide translocator becomes saturated the ATP contributed by adenylate kinase increases due to the higher apparent Km of the enzyme. Under conditions of our standard experiment ([ADP] = 0.5 mM), adenylate kinase provides about 50% of the ATP used by hexokinase in well-coupled mitochondria. In spite of this, externally added ATP supported higher initial rates of hexokinase activity than ADP. Our findings demonstrate that oxidative phosphorylation is not a specific or preferential source of ATP for hexokinase bound to hepatoma mitochondria. The apparent lack of a channeling mechanism for ATP to hexokinase in these mitochondria is discussed.
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PMID:Adenylate kinase is a source of ATP for tumor mitochondrial hexokinase. 299 May 72

Trichloroethylene (TCE), perchloroethylene (PER), and pentachloroethane (PENT) are widely used industrial chemicals that cause an increased incidence of hepatocellular carcinoma in mice and a very low incidence of renal tubular adenocarcinoma in rats. A recent study (C. R. Elcombe, M. S. Rose, and I.S. Pratt (1985), Toxicol. Appl. Pharmacol. 79, 365-376) suggested that the species difference in the hepatocarcinogenicity of TCE seen between rats and mice was due to a species difference in peroxisomal proliferation and cell proliferation. The purpose of the present investigation was to understand better the association of peroxisome proliferation in the species-specific hepatocarcinogenicity, and nephrocarcinogenicity of TCE, PER, and PENT. TCE (1000 mg/kg body wt), PER (1000 mg/kg body wt), PENT (150 mg/kg body/wt), the metabolite trichloroacetic acid (TCA; 500 mg/kg body wt) or the potent peroxisome proliferating agent Wy-14,643 (WY; 50 mg/kg body wt) was administered by gavage to male F-344 rats and B6C3F1 mice for 10 days. Cyanide-insensitive palmitoyl CoA oxidation activity (PCO) was used to measure the peroxisome proliferation response. Of the chlorinated hydrocarbons, TCE and PER elevated PCO activity in mouse liver whereas only TCE elevated rat liver and kidney PCO. All agents increased PCO activity in the kidneys of mice. None of the chlorinated hydrocarbons induced a PCO response stronger than WY. These results support an association between peroxisome proliferation and hepatic tumors in mice following TCE and PER, but not PENT, administration and suggest that chlorinated hydrocarbon-induced peroxisome proliferation does not correlate with species-specific renal carcinogenicity.
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PMID:Chlorinated hydrocarbon-induced peroxisomal enzyme activity in relation to species and organ carcinogenicity. 356 41

Messenger RNA is released preferentially from isolated rat liver nuclei in the presence of the ATP-generating system and cytosol. The release is suppressed by spermidine, while cytoplasmic RNase inhibitor was ineffective and PCMB like some other thiol-blocking agents inhibitory. Cytoplasmic SOD added to the system strongly suppressed RNA release. A similar effect could be obtained by anaerobiosis due to addition of SMP. In both cases the inhibition is reversed by cyanide. In contrast to normal liver where the generation of superoxide radicals takes place almost exclusively in microsomes and is coupled with the oxidation of NADPH, in mouse ascites hepatoma 22a the generation of superoxide radicals occurs mainly in the nuclear envelope and is coupled wih the oxidation of both NADPH and NADH and inhibited by cyanide.
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PMID:Some features of nucleo-cytoplasmic RNA transport from isolated nuclei. 626 58

Evidence has been obtained that the NAD(P)H-dependent "generation of superoxide radicals" by various types of membrane bound redox chains, as studied by the adrenaline method, does not occur in the absence of adrenaline. Studies of the oxygen uptake associated with the NAD(P)H-dependent adrenaline co-oxidation confirm the presence of an unusual cyanide-sensitive electron transfer system in the nuclear membranes from Hepatoma 22a. This redox chain contains a b-type cytochrome which resembles cytochrome b5.
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PMID:Superoxide dismutase-sensitive, NAD(P)H-dependent reduction of oxygen by the membrane-bound redox chains of liver microsomes and hepatoma nuclei in the presence of adrenaline. 647 30

Transport of the precursor for carbamoyl-phosphate synthetase I into mitochondria in Reuber hepatoma H-35 cells was inhibited by adding monensin or nigericin to the culture medium at a concentration of 0.5 microM, and the enzyme precursor accumulated, mainly in the cytosolic fraction. Accumulated precursor was degraded slowly with a half-life of more than 16 min. Valinomycin, nonactin, A23187, X-537A (lasalocid), bromo-lasalocid, and carbonyl cyanide m-chlorophenylhydrazone did not exhibit these effects at concentrations at which they did not inhibit protein synthesis of the cells.
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PMID:Monovalent carboxylic ionophores inhibit transport of carbamoyl-phosphate synthetase I into mitochondria in Reuber hepatoma H-35 cells and cause accumulation of enzyme precursor. 669 10

The distribution of hexokinase between bound and soluble forms was studied by digitonin fractionation of Zajdela hepatoma ascites cells maintained under various metabolic conditions. Addition of glucose to Zajdela cells respiring on endogenous substrates induces an immediate inhibition of respiration by 50-60% ( Crabtree effect), and a production of acid due to glycolysis. Acid production decreases abruptly after 60s to 50% of the initial rate. The ATP/ADP ratio is not altered by the addition of glucose or by different rates of glycolysis. The uncoupling agent carbonyl cyanide m-chlorophenylhydrazone decreases the ATP/ADP ratio by 10-fold in cells respiring on endogenous substrate, but has little effect on cells oxidizing glucose. Rapid fractionation of the cells under these various metabolic conditions revealed no change in the distribution of hexokinase. Approx. 75% of hexokinase is bound in all cases, in contrast with lactate dehydrogenase, 95% of which was in the soluble form. Longer-term incubations (to 20 min) revealed only slight (10-15%) increases in soluble hexokinase in cells incubated with glucose. Various metabolic inhibitors had little additional affect on the subcellular distribution of hexokinase. Thus a rapid release of hexokinase from mitochondrial membrane is not a mechanism by which glycolysis is regulated in rapidly growing Zajdela hepatoma.
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PMID:Altered metabolic states do not change the intracellular distribution of hexokinase in Zajdela hepatoma ascites cells. 672 51

Monolayer cultures of minimal deviation hepatoma cells (H4-II-E-C3') bound and degraded insulin specifically, the apparent Ki value for insulin inhibition of both processes being 1 x 10(-8) M, indicating that cell-bound 125I-insulin is the substrate for subsequent hormone degradation in these cells as in isolated hepatocytes.1 The time course of insulin binding to its receptor depended on hormone concentration and temperature. Degradation of insulin also depended highly on temperature, with little or no degradation occurring at less than 20 degrees C, a temperature below which a membrane-lipid phase transition may block homone translocation or uptake. The effects of various agents on the binding and degradation of 125I-insulin also were tested. Agents believed to inhibit intralysosomal degradation of various proteins also inhibited the degradation of 125I-insulin by H4 cells (chloroquine, ammonium chloride, procaine, and lidocaine); inhibitors of energy production (dinitrophenol, sodium cyanide) inhibited degradation; an agent which inhibits microtubule function (vinblastine) blocked insulin degradation; and methylamine, reported to prevent receptor aggregation,2 also interfered with insulin processing. These findings are consistent with a model for cellular insulin processing, comprising receptor binding, clustering of receptors, endocytotic uptake, intralysosomal degradation, and extracellular release of some degradation products. H4 cells were highly sensitive to insulin. The KE for a half-maximal response of hormone-stimulated incorporationof 14C-glucose into glycogen was 10(-11) M insulin, corresponding to less than 1% receptor occupancy. This response was also mimicked by concanavalin A at a concentration of 10 microgram/ml. Vinblastine and chloroquine both significantly inhibited insulin-stimulated glucose incorporation into glycogen without affecting basal levels. However, since these inhibitory effects were not relieved by addition of excess insulin, it seems unlikely that their action on glycogen synthesis was exerted only at the level of the generation of an active intermediate or degradation product from hormone-receptor complexes. The hormone-sensitive H4 cells thus provide a useful system for further studies examining the role of insulin-receptor uptake in hormone action, receptor regulation, and signal termination.
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PMID:Cultured hepatoma cells as a model system for studying insulin processing and biologic responsiveness. 700 May 84

It was shown that in contrast to normal liver cells the electron transport in the nuclear membranes of ascite hepatoma 22a cells proceeds much faster than that in microsomes. Using superoxide dismutase-sensitive adrenaline oxidation as an index of O2 formation, it was found that the hepatoma nuclear membranes contain an active O2-producing enzymatic system of a new type. This system differs from those described previously, e.g. it utilizes not only NADPH but also NADH as electron donors and reveals a high sensitivity to cyanide ([I] 50% approximately 10 mkM) and azide ([1] 50% approximately 0.2 mM). It is assumed that the site of cyanide-sensitive generation of O2 radicals in hepatoma 22a nuclei is the cytochrome fraction of the b5 type; the latter is activated by terminal desaturase of fatty acids. The high activity of O2 formation in ascite hepatoma nuclei associated with a low superoxide dismutase activity typical for the tumours suggests a shift in the equilibrium between generation and dismutation of O2 radicals in ascite hepatoma cells. The role of this shift in the selective action of some anticarcinogenic antibiotics, whose effects are mediated by O2 radicals, is discussed.
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PMID:[Electron transport systems in the membranes of rat liver nuclei and microsomes and of hepatoma 22a]. 728 78

The hypolipidemic agent fenofibrate, which is a peroxisome proliferator in some rodents in vivo, was studied in cultured hepatocytes for its metabolism and effects on enzymatic induction related to peroxisome proliferation so as to lead to a better understanding of the mechanisms involved in peroxisome proliferation. [14C]-Fenofibrate was completely metabolized within 24 hr by primary cultures of rat hepatocytes and the metabolic pattern corresponded to that found in vivo. The main products were fenofibric acid and its glucuronidated form. Carbonyl reduction of fenofibric acid also occurred. The metabolic pattern of [14C]fenofibric acid was nearly the same as that of fenofibrate. Fenofibrate, fenofibric acid, and its reduced metabolite all induced peroxisomal (cyanide-insensitive) palmitoyl-CoA oxidation activity (PCOA) in rat hepatocytes, whereas derivatives lacking the carboxyl group were nearly inactive. The known species differences with respect to sensitivity to peroxisome proliferators in vivo was mirrored in cultured cells because fenofibric acid did not induce peroxisomal PCOA in primary culture of guinea pig hepatocytes nor in the human hepatoma cell line HepG2. The mechanistic association between the induction of CYP4A1-catalyzed lauric acid omega-hydroxylase (LAH) activity and peroxisomal PCOA induction was investigated. Fenofibric acid concomitantly induced LAH activity and peroxisomal PCOA in rat hepatocytes. Specific inhibition of LAH activity (-52%) by 10-undecynoic acid partially prevented induction of peroxisomal PCOA (-32%). The putative role of dicarboxylic acids, the oxidation product of omega-hydroxymonocarboxylic acids, in PCOA induction was further substantiated by the observed induction of peroxisomal PCOA by 1-12-dodecanedioic acid. We conclude that (1) fenofibric acid is the possible proximate peroxisome proliferator of fenofibrate in rat hepatocytes, (2) cultured hepatocytes reflect in vivo sensitivity to fenofibrate with respect to peroxisome proliferation, and (3) there is some evidence that the catalytic activity of the CYP4A1 enzyme mediates, at least in part, peroxisomal PCOA induction.
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PMID:Fenofibrate: metabolism and species differences for peroxisome proliferation in cultured hepatocytes. 765 63

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