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)

Erthrocytes from African blacks with primary hepatoma were incubated with physiological amounts (1.64 microM) of nicotinamide-14C (NM-14C) and it was found that these erythrocytes could synthesize NAD from NM. After 3-hr incubation with NM-14C, a large percentage of the 14C was found in NMN, nicotinamide riboside (NR) and NAD, but was undetectable in nicotinic acid nucleotides (NAMN and NAAD). This suggested that the NAD synthesized from NM was not through the Preiss-Handler pathway. After 6-plus hr incubation, the 14C found in NAMN and NAAD suggested the NAD synthesized was being broken down and reutilized through Preiss-Handler pathway for synthesis of NAD. This reutilization pathway was confirmed by incubating nicotinic acid-14C (NA-14C) with erythrocytes. Apparently the metabolites from the breakdown of NAD were deaminated. The metabolism of NM-14C was slower than NA-14C. However, after 24 hr incubation with NM-14C, 72.26% of 14C was found in NAD. A high percentage of 14C in NR at the initial incubation and a later drop suggested that NR was another intermediate in the pathway.
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PMID:Pyridine nucleotide metabolism in the erythrocyte of South African blacks with primary hepatoma. 629 91

As has been previously reported an increased intensity of light-induced green fluorescence is observed for some tumor cells. The present paper deals with the cause of this phenomenon, employing for this hepatoma cells of line HTC acted upon with 2,4-DNP, amytal and malonate. It has been shown that the light-induced increase in green fluorescence in cells is due to the oxidation of NADH-dehydrogenase, a mitochondrial flavine-containing enzyme, occurring at the time of fluorescence induction. The increased intensity of green fluorescence of flavoproteins in tumor cells is associated with an infringement in oxidation of NAD-dependent substrates in these, and with the activation of the reverse electron transport in the oxidative chain. The exciding light activates NADH-dehydrogenase and accelerates the translocation of reduced equivalents from this enzyme, which results in its oxidation, and thus--in the observed effect of increased intensity of green fluorescence.
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PMID:[Inhibitory analysis of the functions of the oxidative metabolic systems of tumor cells in tissue culture]. 647 74

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

Three types of ADP-ribosyl proteins (poly(ADP-ribose) conjugates, NH2OH sensitive and NH2OH resistant mono(ADPR) conjugates) could be found in all eukaryotic cells so far studied. They changed independently under various conditions and showed an uneven subcellular distribution suggesting independent functions. Treatment of Ehrlich ascites tumor (EAT) cells with monofunctional or cross-linking alkylating agents led to rapid fragmentation of DNA and depletion of NAD while poly(ADPR) polymerase activity showed a retarded increase. Endogenous amounts of poly(ADPR) groups increased 4- to 30-fold, depending on dose, with the same initial kinetics as the loss of NAD and the appearance of DNA strand breaks. Turnover of poly(ADPR) was determined from the decay rate of the polymer after the addition of benzamide to alkylated cells. At peak elevation of poly(ADPR), an apparent half-life of about 1 min was obtained (control cells: t/2 much greater than 3 hr). There was also an accumulation of nuclear mono(ADPR) conjugates with a half-life of about 10 min. In contrast to in vitro experiments, histone H1 in vivo proved to be only a minor acceptor of ADPR groups in rat liver and in hepatoma cells. It carried less than 0.2% of total monomeric, and less than 2% of total polymeric ADPR residues. Alkylation of cells increased mono(ADP-ribosyl)ation of histone H1 to a much higher degree than poly(ADP-ribosyl)ation. Addition of benzamide to alkylated cells inhibited poly(ADPR) formation and NAD depletion, but interfered with neither DNA fragmentation nor with DNA resealing. Nevertheless, benzamide was a very effective co-cytostatic.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Functional aspects of mono- and poly(ADP-ribosyl)ation: subcellular distribution and ADP-ribosyl turnover under conditions of repair and 'starvation'. 665 28

The NAD content in hepatoma 3924A was approximately 40% of that in the liver of ACI/N rats bearing this hepatoma. Treatment of tumor-bearing rats with tiazofurin decreased NAD pools in the hepatoma, but no change was apparent in the liver. In a dose-response study, injection of varying amounts of the drug decreased NAD pools in the hepatoma in a dose-dependent fashion. In time-sequence studies, a single drug dose (200 mg/kg) depressed NAD pools in the hepatoma from 2 to 24 h after injection to approximately 50% of control at the lowest point before returning to control range at 48 h. The tiazofurin-induced depletion of NAD pools in the hepatoma to approximately 20% of that of normal liver might play a role in the anti-cancer action and toxicity of this drug.
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PMID:Tiazofurin-induced selective depression of NAD content in hepatoma 3924A. 674 37

Accumulation of Ca2+ (+ phosphate) by respiring mitochondria from Ehrlich ascites or AS30-D hepatoma tumor cells inhibits subsequent phosphorylating respiration in response to ADP. The respiratory chain is still functional since a proton-conducting uncoupler produces a normal stimulation of electron transport. The inhibition of phosphorylating respiration is caused by intramitochondrial Ca2+ (+ phosphate). ATP + Mg2+ together, but not singly, prevents the inhibitory action of Ca2+. Neither AMP, GTP, GDP, nor any other nucleoside 5'-triphosphate or 5'-diphosphate could replace ATP in this effect. Phosphorylating respiration on NAD(NADP)-linked substrates was much more susceptible to the inhibitory effect of intramitochondrial Ca2+ than succinate-linked respiration. Significant inhibition of oxidative phosphorylation is given by the endogenous Ca2+ present in freshly isolated tumor mitochondria. The phosphorylating respiration of permeabilized Ehrlich ascites tumor cells is also inhibited by Ca2+ accumulated by the mitochondria in situ. Possible causes of the Ca2+-induced inhibition of oxidative phosphorylation are considered.
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PMID:Inhibition of oxidative phosphorylation in ascites tumor mitochondria and cells by intramitochondrial Ca2+. 676 37

Detoxication (phase 2) enzymes, such as glutathione S-transferases (GSTs), NAD(P)H:(quinone-acceptor) oxidoreductase (QR), and UDP-glucuronsyltransferase, are induced in animal cells exposed to a variety of electrophilic compounds and phenolic antioxidants. Induction protects against the toxic and neoplastic effects of carcinogens and is mediated by activation of upstream electrophile-responsive/antioxidant-responsive elements (EpRE/ARE). The mechanism of activation of these enhancers was analyzed by transient gene expression of growth hormone reporter constructs containing a 41-bp region derived from the mouse GST Ya gene 5'-upstream region that contains the EpRE/ARE element and of constructs in which this element was replaced with either one or two consensus phorbol 12-tetradecanoate 13-acetate (TPA)-responsive elements (TREs). When these three constructs were compared in Hep G2 (human) and Hepa 1c1c7 (murine) hepatoma cells, the wild-type sequence was highly activated by diverse inducers, including tert-butylhydroquinone, Michael reaction acceptors, 1,2-dithiole-3-thione, sulforaphane,2,3-dimercapto-1-propanol, HgCl2, sodium arsenite, and phenylarsine oxide. In contrast, constructs with consensus TRE sites were not induced significantly. TPA in combination with these compounds led to additive or synergistic inductions of the EpRE/ARE construct, but induction of the TRE construct was similar to that induced by TPA alone. Transfection of the EpRE/ARE reporter construct into F9 cells, which lack endogenous TRE-binding proteins, produced large inductions by the same compounds, which also induced QR activity in these cells. We conclude that activation of the EpRE/ARE by electrophile and antioxidant inducers is mediated by EpRE/ARE-specific proteins.
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PMID:Electrophile and antioxidant regulation of enzymes that detoxify carcinogens. 756 53

NAD(P)H:quinone oxidoreductase1 (DT-diaphorase or NQO1) is a flavoprotein that promotes obligatory two-electron reduction of quinones, preventing their participation in redox cycling, oxidative stress, and neoplasia. NQO1 is ubiquitously expressed. However, a large amount of variation in NQO1 gene expression was noticed among various human tissues. NQO1 gene is upregulated in livers of hepatocarcinoma patients, and its expression is induced in response to a variety of compounds, including planar aromatic hydrocarbons, phenolic antioxidants/chemoprotectors, tumor promoters, and hydrogen peroxide. Deletion mutagenesis in the NQO1 gene promoter identified several cis-elements including antioxidant response element (ARE), xenobiotic response element, and AP2 element, which regulate the expression and induction of the NQO1 gene. Among these DNA elements, ARE is the most important cis-element required for high basal expression of the NQO1 gene in tumor tissues, as compared to the normal tissues of the same origin, and for its induction in response to xenobiotics and antioxidants. Nucleotide sequence analysis of the ARE indicated presence of three AP1/AP1-like elements and a GCA box. Mutational analysis indicated a requirement of two AP1/AP1-like elements arranged as inverse repeats at the interval of three base pairs for the ARE activity. The GCA box in the ARE was required for optimum basal and induced expression. ARE is a novel cis-element because a single AP1/AP1-like element did not stimulate gene expression in response to xenobiotics and antioxidants. Band shift and supershift assays identified Jun, Fos, and novel proteins in the hARE-nuclear protein complexes that mediate regulation of the NQO1 gene expression.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:NAD(P)H:quinone oxidoreductase1 (DT-diaphorase): expression, regulation, and role in cancer. 762 Feb 21

A novel pathway of polycyclic aromatic hydrocarbon (PAH) metabolism involves the oxidation of non-K-region trans-dihydrodiols by dihydrodiol dehydrogenase (DD) to yield PAH o-quinones whose cytotoxicity and genotoxicity are unknown. The cytotoxicity of several PAH o-quinones derived from this reaction [naphthalene-1,2-dione (NPQ), benzo[a]pyrene-7,8-dione (BPQ), and 7,12-dimethylbenz[a]anthracene-3,4-dione (DMBAQ)] was examined in rat (H-4IIe) and human (Hep-G2) hepatoma cells which are known to express DD. 2-Methylnaphthalene-1,4-dione (menadione), a known cytotoxic p-quinone, was used as a positive control. Hepatoma cells (1 x 10(6) cells/mL) were exposed to PAH o-quinones (1-100 microM) for 0-4 h, and cell viability and survival were measured and related to O2.- production and changes in redox potential [GSSG/GSH and NAD(P)+/NAD(P)H]. Three different modes of cytotoxicity were observed: (1) NPQ (no bay region) and DMBAQ (methylated bay region) were as cytotoxic as menadione in reducing cell survival but had less effect on cell viability. These o-quinones adversely affected GSH levels and the redox state of the cell and caused an increase in the production of O2.- in cell suspensions. This cytotoxicity was not enhanced by dicoumarol (10 microM), a DT-diaphorase inhibitor, implying that this enzyme is unable to prevent these PAH o-quinones from entering one-electron redox-cycles. (2) BPQ (bay region only) was the least cytotoxic of the PAH o-quinones studied. BPQ decreased cell viability (< 40% at 20 microM) but did not adversely affect cell survival or the redox state of the cell.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cytotoxicity of polycyclic aromatic hydrocarbon o-quinones in rat and human hepatoma cells. 768 7

The induction of NAD(P)H:quinone reductase (EC 1.6.99.2; QR) in Hepa 1c1c7 murine hepatoma cells provides a versatile quantitative model for measuring the potencies of inducers for Phase 2 detoxication enzymes. Since many inducers of these enzymes also protect animals and their cells against the toxic and neoplastic effects of carcinogens, understanding the mechanisms of induction of Phase 2 enzymes is important. Both HgCl2 and 2,3-dimercaptopropanol (BAL) are inducers of QR in these cells, and paradoxically BAL (which is about 30 times less potent than HgCl2) enhances the inducer potency of HgCl2 substantially. This synergism depends on the presence of two thiol groups on adjacent carbon atoms. Since nonchelated mercury(II)-thiol compounds did not show synergism, the formation of very high affinity bidentate chelates appears to be essential for such synergism. A major mechanism for the augmentation of the inducer potency of mercury(II) by BAL is the more rapid cellular uptake and the accumulation of higher intracellular concentrations of mercury. It is also possible that BAL-mercury chelates are intrinsically more potent as inducers. Although equimolar mixtures of BAL and HgCl2 and the synthetic chelate isolated from such mixtures were more potent inducers than HgCl2 alone, the presence of excess BAL increased this inducer synergism even further. By chromatography we showed the reversible formation of higher order complexes between BAL and mercury(II). Such complexes are transported into cells more efficiently and appear to be more potent than free HgCl2 or the chelate obtained from equimolar mixtures of BAL and HgCl2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mercurials and dimercaptans: synergism in the induction of chemoprotective enzymes. 770 53

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