Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxidative DNA damage is involved in mutagenesis, carcinogenesis, aging, radiation effects, and the action of several anticancer drugs. Accumulated evidence indicates that iron may play an important role in those processes. We studied the in vitro effect of low concentrations of Fe(II) alone or Fe(III) in the presence of reducing agents on supercoiled plasmid DNA. The assay, based on the relaxation and linearization of supercoiled DNA, is simple yet sensitive and quantitative. Iron mediated the production of single and double strand breaks in supercoiled DNA. Iron chelators, free radical scavengers, and enzymes of the oxygen reduction pathways modulated the DNA damage. Fe(III)-nitrilotriacetate (NTA) plus either H2O2, L-ascorbate, or L-cysteine produced single and double strand breaks as a function of reductant concentration. A combination of 0.1 microM Fe(III)-NTA and 100 microM L-ascorbate induced detectable DNA strand breaks after 30 min at 24 degrees C. Whereas superoxide dismutase was inhibitory only in systems containing H2O2 as reductant, catalase inhibited DNA breakage in all the iron-mediated systems studied. The effect of scavengers and enzymes indicates that H2O2 and .OH are involved in the DNA damaging process. These reactions may account for the toxicity and carcinogenicity associated with iron overload.
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PMID:Iron-mediated DNA damage: sensitive detection of DNA strand breakage catalyzed by iron. 143 83

To clarify the mechanism by which Cd initiates rat testicular cancer, the ability of Cd or H2O2 to induce DNA single strand breakage was evaluated in testicular Leydig cells using a simple and rapid DNA precipitation method. Effects of Cd, Fe, Zn and Ca on the oxidant-induced DNA damage and effects of reduced glutathione (GSH) on the genotoxicity caused by the peroxide and/or Fe were also assessed. H2O2 induced strong DNA single strand breakage. Cd alone did not exhibit such a genotoxicity nor did it enhance the peroxide-induced DNA damage. Ca and Fe(II) potentiated the oxidant-induced DNA single strand breakage, while Zn partially protected cells from the oxidative damage of DNA caused by the peroxide. GSH attenuated single strand breaks of DNA brought about by H2O2 and/or Fe. These results suggest that the initiation of carcinogenesis in the rat testis by Cd is triggered by active oxygen species such as H2O2, which is generated by the metal exposure, rather than by a direct genotoxicity of Cd. The oxidant-mediated initiation is clearly a complicated event accomplished by multiple factors.
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PMID:DNA damaging activity of cadmium in Leydig cells, a target cell population for cadmium carcinogenesis in the rat testis. 145 53

Trans-tamoxifen (TAM) has been used successfully in therapy for estrogen-dependent human breast tumors and prevention of their recurrence. The mechanism of this prevention was thought to be due to the interference of TAM with estrogen promotion. TAM has a wider anticarcinogenic action that is similar to other chemopreventive agents in that it suppresses tumor promotion in 2-stage carcinogenesis by interfering with the action of protein kinase C. We report that TAM (5 microM) totally inhibits hydrogen peroxide (H2O2) formation by 12-O-tetradecanoyl-phorbol-13-acetate (TPA)-treated human neutrophils. Interestingly, beta-estradiol (10 microM) also slightly inhibits the oxidative burst of neutrophils. Pretreatment of neutrophils with varying amounts of TAM and beta-estradiol caused additive inhibition of H2O2 formation by the 2 agents. 4-Hydroxy-tamoxifen, a metabolite with the highest affinity for the estrogen receptor, was only as inhibitory as beta-estradiol. Other derivatives (cis-, N-desmethyl-, and N-desdimethyl-tamoxifen) with low biological activities had a smaller effect on H2O2 formation. TPA-treated neutrophils were shown to contain 5-hydroxymethyl uracil (HMU). TAM prevented the TPA-induced formation of HMU in other cells. Like TPA, dietary fat, which is a risk factor for breast cancer, induces formation of HMU in the DNA of human white blood cells. TAM may suppress the dietary fat-induced HMU in the same manner at it does in TPA-induced neutrophils.
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PMID:Tamoxifen suppresses tumor promoter-induced hydrogen peroxide formation by human neutrophils. 151 53

Treatment of rats with a single carcinogenic dose of CdCl2 (i.e., 30 mumol/kg) caused severe hemorrhagic damage in the testis within the first 12 h after the metal. Subsequently, atrophy with calcification developed in the next 2-3 mo. Atrophied tissues regenerated during the 1 yr after exposure. Twelve hours after exposure to the Cd treatment, lipid peroxidation levels, Fe content, and cellular production of H2O2 were remarkably elevated in testicular Leydig cells, the target cell population for Cd carcinogenesis. At the same time, glutathione peroxidase activity rose, glutathione reductase and catalase activities were reduced, and superoxide dismutase activity was unchanged. Xanthine oxidase activity in Leydig cells was also elevated at 6 and 9 h after the Cd treatment. Reduced glutathione in testes was decreased and oxidized glutathione was increased 12 h after exposure to the metal. These facts suggest that the carcinogenic doses of Cd induced oxidative stress while compromising cellular defense mechanisms against such stress. Therefore, active oxygen species such as H2O2 may have an important role in the initiation of carcinogenesis within the target cell population.
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PMID:Role of oxidative stress in single-dose, cadmium-induced testicular cancer. 152 11

Increases in acyl coenzyme A (CoA) oxidase activity due to peroxisome proliferation are postulated to cause oxidative stress via elevated production of H2O2, leading to DNA damage. These changes are suspected to be responsible for tumor formation caused by non-genotoxic carcinogens which do not bind to DNA but cause proliferation of peroxisomes. However, the activity of the peroxisomal enzyme acyl CoA oxidase assayed in vitro in the presence of excess fatty acyl CoA substrate may not reflect rates of H2O2 generation in intact liver where fatty acid supply is carefully controlled in part by delivery of substrate. The purpose of this work was to determine if rates of hepatic H2O2 generation were altered in perfused liver and in vivo following induction of H2O2-generating acyl CoA oxidase activity. Injection of the potent peroxisome proliferating agent perfluorooctanoate into rats 5 days prior to sacrifice caused an expected 4-fold increase of H2O2-generating acyl CoA oxidase activity measured in hepatic homogenates. In contrast, rates of H2O2 generation in perfused liver measured spectrophotometrically (660-640 nm) through a lobe of the liver were not altered by perfluorooctanoate treatment (7.3 +/- 1.5 vs. 7.8 +/- 0.5 mumol/g/h in livers from untreated control rats). Similar treatment with perfluorooctanoate also increased in vitro acyl CoA oxidase activity 9-fold in livers from deermice; however, rates of elimination of methanol, a selective substrate for catalase in rodents whose oxidation is limited by the supply of H2O2, were not altered significantly in vivo (control, 110 +/- 11 mumol/g/h vs. perfluorooctanoate, 112 +/- 32 mumol/g/h). Taken together, these data demonstrate that elevation of H2O2 formation by acyl CoA oxidase activity measured in vitro is not necessarily associated with increases in rates of H2O2 generation in intact perfused liver or in vivo, most likely due to rate-limitation in intact cells by fatty acid supply. These data do not support the hypothesis that the induction of peroxisomes leads to excessive H2O2 production and oxidative stress. It follows that alternative hypotheses to explain carcinogenesis caused by peroxisome-proliferating agents need to be considered.
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PMID:Induction of peroxisomes by treatment with perfluorooctanoate does not increase rates of H2O2 production in intact liver. 153 82

Xeroderma pigmentosum (XP) and trichothiodystrophy (TTD) are two recessively transmitted human diseases characterized by DNA repair deficiency. While XP is associated with a very high incidence of cancer on skin exposed to sunlight, TTD is not a cancer-prone disease. Therefore, unrepaired UV-induced DNA lesions do not appear to be enough to give rise to tumors. In order to understand the differences between these two syndromes, we measured catalase activity in cellular extracts, UV irradiated or not, and quantified H2O2 production following in vitro UV irradiation. We confirmed on 21 different XP diploid fibroblast lines that catalase activity was decreased on average by a factor of five as compared to controls, while XP heterozygote lines exhibited intermediary responses. All seven TTD lines we tested were deficient in UV-induced lesion repair and exhibited a high level of catalase activity. However, molecular analysis of catalase transcription showed no difference between normal, XP and TTD cell lines. This was confirmed by Western blots where the amount of catalase subunits was identical in all cell lines studied. Finally, UV irradiation induces five and three times more H2O2 production in XP lines compared with TTD or controls respectively. These striking differences between TTD and XP indicate that UV light, directly or indirectly, together with defective oxidative metabolism may increase the initiation and/or the progression steps in the XP environment compared to TTD. This may partly explain the different tumoral phenotype observed between the two diseases.
Carcinogenesis 1992 Mar
PMID:Striking differences in cellular catalase activity between two DNA repair-deficient diseases: xeroderma pigmentosum and trichothiodystrophy. 154 19

Reactive oxygen species can give rise to numerous modifications of DNA. We have investigated the formation of such modifications using the nuclease P1 digestion method of the 32P-postlabelling procedure for the detection of DNA damage. Analysis of DNA that had been treated with a Fenton-type system of copper (or iron) ions and H2O2 resulted in the detection of up to ten discrete 32P-labelled spots, displaying chromatographic characteristics similar to aromatic adducts, on PEI-cellulose TLC. Maximum total levels equivalent to 28 adducts/10(8) nucleotides were achieved after 15 min of treatment with Cu2+/H2O2. The formation of adducts was 1.5 times greater if single-stranded rather than double-stranded DNA was employed, suggesting an intrastrand effect. Experiments with 3'-deoxyribonucleotides demonstrated that the adducts detected did not represent base modifications such as 8-hydroxydeoxyguanosine or thymidine glycols. However, treatment of specific dinucleotides (dApdG and dApdA) was found to produce two major adducts that were chromatographically identical by TLC and HPLC to the two major adducts formed in DNA. It is proposed that these species with aromatic adduct-like characteristics are the result of the intrastrand linking of specific adjacent bases in DNA.
Carcinogenesis 1992 Jul
PMID:Detection and characterization by 32P-postlabelling of DNA adducts induced by a Fenton-type oxygen radical-generating system. 163 78

The following species; superoxide (O2-.), hydrogen peroxide (H2O2), hydroxyl radical (.OH) and singlet oxygen (1O2), are generally called as reactive oxygen species (ROS). These species have been suggested to play important roles in various diseases caused by oxygen toxicity such as ischemia, carcinogenesis, inflammation, diabetes and aging. During the past two decades, considerable interests have been focused on chemical and biological research of ROS. We have also reported about the research results on ROS, which can be classified as following below; 1) chemical reactivities of O2-., 2) formation and toxicity of 1O2, 3) chemical reactivities of .OH, 4) enzyme mechanism of xanthine oxidase, 5) development of the compounds which induce the formation of O2-. and H2O2 in living cells and 6) development of superoxide dismutase mimics. These studies are reviewed from the standpoint of both chemical and biological interests.
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PMID:[Chemical and biochemical studies on reactivities, formations and toxicities of reactive oxygen species]. 164 54

Ozone (O3) is a toxic gaseous pollutant that has been implicated in laboratory studies as a potential lung carcinogen or cocarcinogen in mice. To begin to assess the role of altered macrophage (M phi) responses as a possible mechanism by which O3 may influence carcinogenesis, we examined the effects of repeated in vivo O3 exposure on pulmonary M phi functional and biochemical activities deemed important in tumor surveillance, and host defense in general. Rabbits were exposed by inhalation to 1 ppm O3 for 3 d (2 h/d) and the lungs were lavaged immediately (t0) and 24 h (t24) after exposure. Results demonstrate that O3 reduced M phi viability and increased the number of neutrophils collected immediately after exposure. Effects of O3 on M phi movement were as follows: random migration was depressed immediately after the final exposure and chemotactic migration increased after 24 h. M phi-mediated cytotoxicity toward xenogeneic tumor cells in vitro was significantly depressed, compared to control, immediately and 24 h after O3 exposure. Release of cytotoxic factors deemed important for mediating tumor cell destruction was also assessed. Spontaneous and stimulated production of tumor necrosis factor, as measured by cytotoxicity toward LM cells (a clone of L-929 mouse fibroblasts), was unaffected by exposure to O3. Zymosan-stimulated production of superoxide anion radical (.O2-) was depressed at t0 and increased at t24; however, no significant effects on H2O2 production by resting or zymosan-stimulated M phi were observed at either time interval. Inhaled toxicants such as O3, which can compromise M phi functions important in tumor surveillance, could potentially alter host susceptibility to pulmonary cancer. Results of this study have important implications for human health, and demonstrate the need for further studies examining the carcinogenic/cocarcinogenic potential of O3.
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PMID:Immunomodulating effects of ozone on macrophage functions important for tumor surveillance and host defense. 166 76

In previous studies we showed that tumor-associated macrophages isolated from murine mammary tumors are mutagenic to bacteria and mammalian cells and thus may contribute to tumor progression. We reported previously, and confirm here, that inflammatory macrophages induce DNA strand breaks in cultured mammary tumor cells co-incubated at a 1:1 ratio for 1 h. This activity is prevented by inhibitors of arachidonate metabolism or the removal of H2O2 with catalase. In the present study, we show that two antibodies to recombinant murine tumor necrosis factor alpha (rMuTNFa)--a hamster monoclonal antibody (TN3-19.12) and a rabbit polyclonal antibody (Genzyme)--partially protect tumor cells from DNA strand breaks induced by elicited but not resident peritoneal macrophages. Antibody protection was reversed upon the addition of excess exogenous rMuTNFa. Purified rMuTNFa alone was unable to induce DNA strand breaks in the absence of macrophages, indicating that TNFa is necessary but not sufficient to mediate damage. Tumor target cells were completely resistant to the cytotoxic effects of rMuTNFa in the absence of actinomycin D and relatively resistant (in comparison to WEHI 164 clone 13 cells) in its presence. The incomplete protection seen with either catalase or anti-TNF suggests that macrophage-released TNFa, in the presence of other factors, induces non-cytotoxic DNA effects in tumor cells.
Carcinogenesis 1992 Jan
PMID:The role of macrophage-derived TNFa in the induction of sublethal tumor cell DNA damage. 173 75


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