UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pyrimidine precursor orotic acid (OA) is a constituent of dairy products and therapeutic drugs. Several recent publications point towards a tumor promoting activity of OA in rat liver. An increased production of reactive oxygen has been discussed as a possible mechanism, leading to lipid peroxidation and DNA single strand breaks. In view of contradictory results, this postulated prooxidative action of OA was reexamined with new experimental techniques. Weanling Sprague-Dawley rats were fed 1% OA in different diets for 4-35 days. The NADPH-mediated lipid peroxidation in liver homogenate and microsomes was determined in vitro by analysis of low-level chemiluminescence (CL) and the strongly correlated formation of malondialdehyde (MDA). In no case did treatment with OA result in an increase of lipid peroxidation in vitro nor did such treatment enhance the generation of reactive oxygen as measured by lucigenin CL. In accordance, the total cytochrome P-450 content as well as the activity of individual P-450 isoenzymes were unchanged. Treatment with OA did not elevate the MDA content of fresh liver homogenate when butylated hydroxytoluene (BHT) was present in the test system. However, when the antioxidant was omitted, increased levels of thiobarbituric acid reactive material were found which correlated with the triglyceride content. This could explain some published data that have been taken as indication for a prooxidative action of OA. Evidence against an increased lipid peroxidation in vivo is given by the analysis of ethane exhalation. Furthermore, no increase in DNA single strand breaks by OA treatment could be observed by the alkaline elution technique. These results do not support the hypothesis of a prooxidative activity of OA. The observed reversible decrease of the GSH/GSSG ratio is assumed to result from the reduced size of the phosphopyridine nucleotide pool due to purine deficiency and an increased consumption of NADPH by the enhanced reductive degradation of pyrimidines.
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PMID:Effect of orotic acid on the generation of reactive oxygen and on lipid peroxidation in rat liver. 201 18

Effect of dietary calorie restriction and fat reduction on growth of established mammary carcinoma in rats and on glutathione levels in liver and tumor tissue was investigated. Reduced (GSH) and oxidized (GSSG) glutathione were determined enzymatically. Female Sprague-Dawley rats were injected with 25 mg/kg methylnitrosourea (MNU) on day 50 of life for tumor induction, and subsequently fed a diet containing 50 kcal/day with 45% (energy %) fat. When tumors reached approximately 1 cm3, the diet was changed for 10 +/- 2 weeks. Four dietary groups were formed: two high calorie groups (50 kcal/day) with 45% or 25% fat and two calorie restricted groups (35 kcal/day) with 45% or 25% fat, respectively. Tumor growth was significantly inhibited by the 30% calorie restriction, and the inhibition was most effective in the calorie restricted group with low fat level. However, reduction of fat, alone, had no significant inhibitory effect. GSSG levels in both liver and tumor showed no differences among the groups. Hepatic GSH levels tended to be lower in the calorie-restricted groups, and showed no difference between isocaloric groups with different fat levels. In contrast, GSH in tumor tissue tended to be lower in the low fat groups, independently of calorie levels.
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PMID:Effect of dietary calorie and fat restriction on mammary tumor growth and hepatic as well as tumor glutathione in rats. 202 87

To examine the role of doxorubicin-stimulated oxyradical formation in tumor cell killing, we introduced glutathione peroxidase (GSH Px) or superoxide dismutase (SOD) into MCF-7 cells by "scrape loading." Control cytoplasmic GSH Px and SOD levels increased from (mean +/- S.E.) 0.37 nmol/min/mg and 0.58 microgram SOD/mg, respectively, to 3.99 or 7.63 nmol/min/mg and 1.40 or 1.83 micrograms SOD/mg after treatment with either 150 or 300 units/ml of GSH Px or 20 or 40 mg/ml SOD. Resistance to doxorubicin was correlated with the level of GSH Px introduced into the MCF-7 cells; a one-hour exposure to 1.75 microM doxorubicin decreased the cloning efficiency of control cells loaded with medium alone to 34%, whereas doxorubicin-treated cells augmented with 150 or 300 units/ml of GSH Px had plating efficiencies of 56 or 86%, P less than 0.05. Introduction of SOD increased MCF-7 resistance to doxorubicin similarly. The heat-inactivated enzymes were not protective. Cells loaded with GSH Px were also resistant to the redox cycling anticancer quinone mitomycin C but not to the redox inactive analogs 5-iminodaunorubicin and mitoxantrone, suggesting that amplification of GSH Px or SOD levels can produce doxorubicin resistance in MCF-7 cells.
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PMID:Doxorubicin resistance conferred by selective enhancement of intracellular glutathione peroxidase or superoxide dismutase content in human MCF-7 breast cancer cells. 206 Aug 50

To determine whether oxidants capable of DNA modification are produced by cells treated with tumor promoters, we adapted a fluorometric method to our needs. HeLa cells were preincubated with 2',7'-dichlorofluorescin diacetate (DCFdAc), treated with various agents, sonicated, centrifuged and fluorescence of the oxidized product (DCF) was determined in supernatants. When cells were exposed to H2O2 in the presence of azide (catalase inhibitor) or o-phenanthroline (a lipophilic Fe chelator), an increase in fluorescence was observed. These results show that some Fe ions were interacting with the H2O2 which entered the cells, thus decreasing its levels available for oxidation of the substrate and potentially increasing formation of .OH, known DNA-damaging species. Glutathione (GSH), which is present in cells in substantial amounts, was found to reduce DCF whereas azide counteracted GSH-mediated reduction. Treatment of HeLa cells with 12-0-tetradecanoyl-phorbol-13-acetate (TPA) in the presence of DCFdAc and azide resulted in dose- and time-dependent formation of DCF. Even when cells were sonicated prior to incubation with TPA, DCF was formed at levels proportional to the number of cells as well as dose of TPA. Flow cytometry of TPA-treated cells confirmed these findings. These results demonstrate that tumor promoters can cause oxidative activation of HeLa cells, which produce active oxygen species, most likely H2O2, that ultimately contribute to the formation of oxidized bases such as 5-hydroxymethyl uracil in cellular DNA. They also show that this fluorometric method can be utilized for determination of cellular H2O2 formation at nM concentrations.
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PMID:Hydrogen peroxide formation by cells treated with a tumor promoter. 206 Aug 51

Resistance of a rat ovarian tumor cell line (O-342/DDP) to cisplatin was induced in vitro by stepwise increase of cisplatin concentrations. Both chemosensitive parental cells (O-342) and resistant O-342/DDP cells grow in a monolayer and enter log-phase growth about 24 h after seeding (cell population doubling time in log-phase growth is about 24 h). O-342/DDP cells show a 33-fold resistance to cisplatin as compared to O-342 cells (ID50 = 33 microM in O-342/DDP vs 1 microM in O-342 cells). The intracellular total glutathione (GSH + GSSG) of O-342/DDP cells was twice as high as that of O-342 cells (3.04 vs 1.37 nmol/10(6) cells), while the intracellular GSSG was increased by 26% in O-342/DDP cells compared to O-342 cells. DNA interstrand crosslinks were found to be 8.5 times higher in O-342 cells than in O-342/DDP cells (204 vs 24 rad equiv.), following cisplatin treatment. DNA single-strand breaks were approximately doubled in the sensitive line as compared to the resistant line following exposure to cisplatin. Chromosome analysis uncovered a change in the karyotype of O-342/DDP cell as compared to O-342 cells. In the sensitive line hyperploid (3n) clones, in the resistant line near-diploid clones predominated. Both DL-buthionine-(S,R)-sulfoximine and 3-aminobenzamide were able to sensitize the resistant line towards cisplatin. Thus, the present results suggest that mechanisms for cisplatin resistance in this tumor line apparently are multi-factorial, and include a higher intracellular GSH content and an increased repair activity.
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PMID:In vitro investigations on induction and reversal of cisplatin resistance in a rat ovarian tumor cell line. 212 38

Protective effects of intracellular glutathione (GSH) against the cytotoxicity of human recombinant tumor necrosis factor (TNF) were investigated. Three tumor cell lines (L-M, B-16, HeLa) were used as target cells. Exposure of these cells to buthionine sulfoximine (BSO) or diethyl maleate (DEM) resulted in the depletion of intracellular GSH content to 5.2-43.0% of control values and enhancement of their susceptibility to TNF cytotoxicity. The hydroxyl radical production in L-M cells stimulated by TNF was increased by treatment with BSO or DEM. These results are consistent with the suggestion that intracellular GSH exerts its protective function against the cytocidal effect of TNF by inhibiting the hydroxyl radical production stimulated by TNF.
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PMID:Suppressive effects of intracellular glutathione on hydroxyl radical production induced by tumor necrosis factor. 217 72

Radiation interacts with biological systems to produce many types of molecular lesions. Much of the molecular damage is of little consequence with regard to cell killing. The lesions that are most likely to contribute to cell killing are DNA lesions produced by clusters of radicals. The formation of clusters of radicals is characteristic of ionizing radiation and accounts for its high efficiency as a cytotoxic agent. The mechanism by which these lesions kill cells is probably the formation of DNA double-strand breaks, ultimately resulting in chromosomal breaks. There is a possibility that some of the other types of molecular lesions produced by radiation may participate in more subtle mechanisms of cell damage. For instance, radiation induces a self-destructive process (apoptosis) in certain cell types, and the molecular lesions that initiate this process have not been identified. Glutathione (GSH) is a versatile protector. Several distinct mechanisms of radioprotection by GSH can be identified. These include radical scavenging, restoration of damaged molecules by hydrogen donation, reduction of peroxides and maintenance of protein thiols in the reduced state. Of these mechanisms, hydrogen donation to DNA radicals is probably the most important. Since competing reactions are very rapid, this mechanism requires a high concentration of GSH. Radioprotection by hydrogen donation to DNA radicals is not effective in oxygenated cells because the normal intracellular GSH concentration is not sufficient for effective competition with oxygen. Consequently, moderate depletion of GSH has no effect on the radiosensitivity of oxygenated cells. Under hypoxic conditions GSH becomes more competitive, and GSH depletion can markedly affect radiosensitivity. The radiosensitivity of hypoxic cells is most affected by GSH depletion in the presence of low concentrations of radiosensitizers. Since hypoxic cells are a characteristic feature of tumors, moderate depletion of GSH in combination with treatment with hypoxic cell radiosensitizers appears to be a promising strategy for selective tumor sensitization in radiation therapy. Oxidation of GSH can result in radiosensitization of both hypoxic and oxygenated cells. The mechanism of this effect appears to involve oxidation of protein thiols which are important for DNA repair. In principle, modification of DNA repair could have a greater impact on radiation therapy than modification of the number of lesions produced by radiation. However, a strategy for modification of GSH or protein thiol redox state in vivo has not yet been devised.
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PMID:Role of glutathione in the radiation response of mammalian cells in vitro and in vivo. 219 53

The in vitro interaction of mercury, copper (II) and cadmium with human glutathione transferase (GST) pi was studied using reduced glutathione (GSH) and 1-chloro-2,4-dinitrobenzene as substrate. Tumor specific human GST pi was isolated from the human hepatoma derived PLC/PRF/5 cell line. The inhibition of the GST pi activity was dose dependent. Kinetic studies never revealed competitive inhibition. A parabolic inhibition was found with GSH as the variable substrate. The heavy metals are spontaneously conjugated with GSH and cysteine, but interact with GST pi by direct binding to this protein. This binding could have a protective function against heavy metals.
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PMID:In vitro interaction of mercury, copper (II) and cadmium with human glutathione transferase pi. 221 73

After twenty years, understanding the mechanisms of tumor cells kill by anthracyclines still remains an active area of research. Of many mechanisms described for this class of drugs, efforts in the last year have focused on defining the role of free radical formation, topoisomerase II-induced DNA breakage, and P-170-dependent cellular accumulation of anthracyclines in tumor cell kill and resistance. First, in a number of tumor cell lines, the formation of free radical species from anthracyclines has been implicated in the cell killing. Modulation of detoxification pathways in a drug-resistant cell line e.g depletion of GSH, a substrate for peroxidase and transferase, enhanced both the formation of oxy-radicals and adriamycin cytotoxicity. It should be noted, however, that these findings are not true for every cell line examined, and free radical-mediated tumor kill may be cell- or tissue-specific. Second, anthracyclines-mediated topo II-dependent DNA cleavage was observed in most cell lines and reduced breaks were found in resistant cells. The decrease in single-strand breaks, however, neither correlated with the degree of resistance nor with differences in the relative topo II activity, which was in most cases only two-fold less in resistant cells than in sensitive cells. Finally, the reduced accumulation of the drug does not appear to be the only contributing factor in multidrug resistant cells and P-170 is not the only protein overexpressed in certain cells, e.g., an 85,000 Da protein may also be linked to adriamycin resistance. Although GST protein is overexpressed in most adriamycin resistant cells along with mdr1 gene, current evidence suggests that this protein may not be directly involved in adriamycin resistance. Taken together, both the mechanism of action and resistance to this class of drug likely vary among cell lines. Clinical studies in the past year have brought about interesting refinements in anthracycline-containing chemotherapy; ICRF-187 (by itself also cytotoxic) seems to offer protection against cardiac toxicity, while implicating iron in the mediation of cardiac damage. Out of a large number of newer anthracycline derivatives, clinical evidence indicates only a modest increase in therapeutic index with a few analogs, perhaps idarubicin and epirubicin. It is not yet clear that being able to receive more milligrams (or more cycles) of anthracycline eventually translates into a significantly better response rate or in a survival advantage. Much less clear is whether patients refractory to adriamycin may derive any benefit from newer anthracyclines.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Anthracyclines. 222 2

The effect of glutathione (GSH) depletion on the interaction of hyperthermia (HT) and single-dose external-beam radiation delivered at conventional dose rates (RT) and low-dose-rate brachytherapy (BT) was examined in a murine mammary adenocarcinoma (MTG-B). Tumour volume growth delay from the day of treatment to double the treatment volume (GDDV) was used as the experimental end-point. The growth delay for radiation alone was greater when combined with GSH depletion, while this level of GSH depletion produced no effect on the BT alone or HT alone response. The synergism ratio (SR) was calculated for all HT and RT or HT and BT protocols at each dose. Although depletion did not increase the SR for external-beam treatments, the SR for HT and BT treatments was increased with GSH depletion.
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PMID:The effect of in vivo GSH depletion on thermosensitivity, radiosensitivity and thermal radiosensitization. 225 Jan 20

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