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)

The metabolite of the carcinogenic azo dye Sudan I, 1-(phenylazo)-2,6-dihydroxynaphthalene (6-OH-Sudan I), which is considered to be the detoxification product of this dye is metabolized by prostaglandin H synthase (PHS) in the presence of arachidonic acid or H2O2 in vitro. The apparent Michaelis constant value for 6-OH-Sudan I as a substrate is 98.9 microM. 1-(Phenylazo)-2,6-naphthoquinone is a principal product of the 6-OH-Sudan I oxidation. This oxidation is inhibited by radical scavengers nitrosobenzene, ascorbate, glutathione and NADH. This indicates that PHS metabolizes 6-OH-Sudan I through a one-electron oxidation mechanism, giving rise to free radicals. During the PHS-mediated reaction, 6-OH-Sudan I is activated to metabolites binding to protein and DNA. The 32P-postlabeling analysis of DNA modified by activated 6-OH-Sudan I provides evidence that covalent binding to DNA is the principal type of DNA modification. The PHS-mediated binding of 6-OH-Sudan I to DNA presumably proceeds through formation of 1-(phenylazo)-2,6-naphthoquinone. The results suggest strongly that the C-hydroxylated derivative of Sudan I (6-OH-Sudan I) should be evaluated as a proximate carcinogenic metabolite, which may participate in the initiation of Sudan I-carcinogenesis in the urinary bladder.
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PMID:Prostaglandin H synthase-medicated oxidation and binding to DNA of a detoxication metabolite of carcinogenic Sudan I, 1-(phenylazo)-2,6-dihydroxynaphthalene. 1065 9

Removal of choline from the diet results in accumulation of triglycerides in the liver, and chronic dietary deficiency produces a non-genotoxic model of hepatocellular carcinoma. An early event in choline deficiency is the appearance of oxidized lipid, DNA and protein, suggesting that increased oxidative stress may facilitate neoplasia in the choline deficient liver. In this study, we find that mitochondria isolated from rats fed a choline-deficient, L-amino acid defined diet (CDAA) demonstrate impaired respiratory function, particularly in regard to complex I-linked (NADH-dependent) respiration. This impairment in mitochondrial electron transport occurs coincidentally with alterations in phosphatidylcholine metabolism as indicated by an increased ratio of long-chain to short-chain mitochondrial phosphatidylcholine. Moreover, hydrogen peroxide (H(2)O(2)) generation is significantly increased in mitochondria isolated from CDAA rats compared with mitochondrial from normal rats, and the NADH-specific yield of H(2)O(2) is increased by at least 2.5-fold. These findings suggest an explanation for the rapid onset of oxidative stress and energy compromise in the choline deficiency model of hepatocellular carcinoma and indicate that dietary choline withdrawal may be a useful paradigm for the study of mitochondrial pathophysiology in carcinogenesis.
Carcinogenesis 2000 May
PMID:Dietary choline restriction causes complex I dysfunction and increased H(2)O(2) generation in liver mitochondria. 1078 22

Ferric nitrilotriacetate induces oxidative damage in renal proximal tubules that ultimately leads to a high incidence of renal cell carcinoma (RCC) in rats. In search of genes specifically involved in oxystress-induced carcinogenesis, we have applied a modified fluorescent differential display technique to the tumors and an established cell line as well as their non-neoplastic counterparts. We screened approximately 84,000 products. Reverse Northern blotting confirmed differential expression of 20 transcripts, which showed either significant increase, decrease or lack of expression in the RCCs. Five cDNA clones encoded novel products of unknown function. Fifteen cDNA clones were identified by homology search, which included annexin II, Y-box binding protein, ribosomal proteins, heat shock proteins, DNA polymerase, nonmuscle caldesmon (increased); protein tyrosine phosphatase (decreased); selenoprotein P, stromal cell-derived factor 1, intestinal trefoil protein, nicotinamide adenine dinucleotide, reduced form (NADH) dehydrogenase, and insulin-like growth factor binding protein 7 (deleted). Most of the identified genes were associated with stress-response or cellular proliferation. These results suggest that multiple, interactive genetic pathways are involved in carcinogenesis induced by oxidative stress.
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PMID:Expression of stress-response and cell proliferation genes in renal cell carcinoma induced by oxidative stress. 1085 35

The biological effects of ultraviolet radiation (UV), such as DNA damage, mutagenesis, cellular aging, and carcinogenesis, are in part mediated by reactive oxygen species (ROS). The major intracellular ROS intermediate is hydrogen peroxide, which is synthesized from superoxide anion ((*)O(2)(-)) and further metabolized into the highly reactive hydroxyl radical. In this study, we examined the involvement of mitochondria in the UV-induced H(2)O(2) accumulation in a keratinocyte cell line HaCaT. Respiratory chain blockers (cyanide-p-trifluoromethoxy-phenylhydrazone and oligomycin) and the complex II inhibitor (theonyltrifluoroacetone) prevented H(2)O(2) accumulation after UV. Antimycin A that inhibits electron flow from mitochondrial complex III to complex IV increased the UV-induced H(2)O(2) synthesis. The same effect was seen after incubation with rotenone, which blocks electron flow from NADH-reductase (complex I) to ubiquinone. UV irradiation did not affect mitochondrial transmembrane potential (DeltaPsi(m)). These data indicate that UV-induced ROS are produced at complex III via complex II (succinate-Q-reductase).
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PMID:Role of mitochondria in ultraviolet-induced oxidative stress. 1107 92

The estrogen metabolites catecholestrogens (or hydroxyestrogens) are involved in carcinogenesis and the development of resistance to methotrexate. This induction of drug resistance correlates with the relative efficiency of catecholestrogens in the generation of reactive oxygen species (ROS) and the induction of DNA strand breaks. Although antioxidants can neutralize ROS, the generation of these reactive species by catecholestrogens can be enhanced by electron donors like NADH. Therefore, this study was undertaken to determine the ability of different thiol agents (GSH, NAC, DTT, DHLA) to either inhibit or enhance the level of DNA damage induced by the H(2)O(2) generating system 4-hydroxyestradiol/Cu(II). Our results show that GSH, DTT, and DHLA inhibited the induction of the 4-hydroxyestradiol/Cu(II)-mediated DNA damage, with GSH showing the best potential. In contrast, the GSH precursor NAC at low concentrations was able to enhance the level of oxidative damage, as observed with NADH. NAC can reduce Cu(II) to Cu(I) producing the radical NAC&z.rad;, which can generate the superoxide anion. However, the importance of this pathway appears to be relatively minor since the addition of NAC to the 4-hydroxyestradiol/Cu(II) system generates about 15 times more DNA strand breaks than NAC and Cu(II) alone. We suggest that NAC can perpetuate the redox cycle between the quinone and the semiquinone forms of the catecholestrogens, thereby enhancing the production of ROS. In conclusion, this study demonstrates the crucial importance of the choice of antioxidant as potential therapy against the negative biological effects of estrogens.
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PMID:Thiols can either enhance or suppress DNA damage induction by catecholestrogens. 1113 96

Nitropyrenes are carcinogenic pollutants. Adduct formation following nitro-reduction is considered to be a major cause of nitropyrene-mediated DNA damage. We investigated the role of 1-nitrosopyrene, a metabolite of 1-nitropyrene, in causing oxidative DNA damage, using 32P-5'-end-labeled DNA. 1-Nitrosopyrene was found to facilitate Cu(II)-mediated DNA damage in the presence of NADH. Catalase and a Cu(I)-specific chelator attenuated DNA damage, indicating the involvement of H2O2 and Cu(I). Typical *OH scavenger did not have a significant effect. These results suggest that the main reactive species is probably a DNA-copper-hydroperoxo complex. We also measured 8-oxo-7,8-dihydro-2'-deoxyguanosine formation by 1-nitrosopyrene in the presence of Cu(II) and NADH, using an electrochemical detector coupled to a high-pressure liquid chromatograph. We conclude that oxidative DNA damage, in addition to DNA adduct formation, may play an important role in the carcinogenesis of nitropyrenes.
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PMID:Oxidative DNA damage by a metabolite of carcinogenic 1-nitropyrene. 1116 76

Estrogen-induced carcinogenesis involves enhanced cell proliferation (promotion) and genotoxic effects (initiation). To investigate the contribution of estrogens and their metabolites to tumor initiation, we examined DNA damage induced by estradiol and its metabolites, the catechol estrogens 2-hydroxyestradiol (2-OHE(2)) and 4-hydroxyestradiol (4-OHE(2)). In the presence of Cu(II), catechol estrogens formed piperidine-labile sites at thymine and cytosine residues in (32)P 5'-end-labeled DNA fragments and induced the formation of 8-oxo-7,8-dihydro-2'-deoxyguanosine. NADH markedly enhanced Cu(II)-dependent DNA damage mediated by nanomolar concentrations of catechol estrogens. Catalase and bathocuproine inhibited the DNA damage, suggesting the involvement of H(2)O(2) and Cu(I). These results suggest that H(2)O(2), generated during Cu(II)-catalyzed autoxidation of catechol estrogens, reacts with Cu(I) to form the Cu(I)-peroxide complex, leading to oxidative DNA damage, and that NADH enhanced DNA damage through the formation of redox cycle. To investigate the role of estrogens and their metabolites in tumor promotion, we examined their effects on proliferation of estrogen-dependent MCF-7 cells. Estradiol enhanced the proliferation of MCF-7 cells at much lower concentrations than catechol estrogens. These findings indicate that catechol estrogens play a role in tumor initiation through oxidative DNA damage, whereas estrogens themselves induce tumor promotion and/or progression by enhancing cell proliferation in estrogen-induced carcinogenesis.
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PMID:Catechol estrogens induce oxidative DNA damage and estradiol enhances cell proliferation. 1129 Oct 67

Catechol, a naturally occurring and an important industrial chemical, has been shown to have strong promotion activity and induce glandular stomach tumors in rodents. In addition, catechol is a major metabolite of carcinogenic benzene. To clarify the carcinogenic mechanism of catechol, we investigated DNA damage using human cultured cell lines and 32P-labeled DNA fragments obtained from the human p53 and p16 tumor suppressor genes and the c-Ha-ras-1 proto-oncogene. Catechol increased the amount of 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodG), which is known to be correlated with the incidence of cancer, in a human leukemia cell line HL-60, whereas the amount of 8-oxodG in its hydrogen peroxide (H2O2)-resistant clone HP100 was not increased. The formation of 8-oxodG in calf thymus DNA was increased by catechol in the presence of Cu(2+). Catechol caused damage to 32P-labeled DNA fragments in the presence of Cu(2+). When NADH was added, DNA damage was markedly enhanced and clearly observed at relatively low concentrations of catechol (<1 microM). DNA cleavage was enhanced by piperidine treatment, suggesting that catechol plus NADH caused not only deoxyribose phosphate backbone breakage but also base modification. Catechol plus NADH frequently modified thymine residues. Bathocuproine, a specific Cu(+) chelator and catalase inhibited the DNA damage, indicating the participation of Cu(+) and H2O2 in DNA damage. Typical hydroxyl radical scavengers did not inhibit catechol plus Cu(2+)-induced DNA damage, whereas methional completely inhibited it. These results suggest that reactive species derived from the reaction of H2O2 with Cu(+) participates in catechol-induced DNA damage. Therefore, we conclude that oxidative DNA damage by catechol through the generation of H2O2 plays an important role in the carcinogenic process of catechol and benzene.
Carcinogenesis 2001 Aug
PMID:Site specificity and mechanism of oxidative DNA damage induced by carcinogenic catechol. 1147 Jul 55

Because of the evidence for the involvement of xenobiotic bioactivation in pulmonary toxicity and carcinogenesis, it is important to improve our understanding of the xenobiotic-metabolizing enzymes in isolated and cultured specific pulmonary cell populations. Some phase I and phase II xenobiotic-metabolizing enzyme activities, reduced glutathione (GSH), and gamma-glutamyl transferase (gamma-GT) were studied in rat type II pneumocytes and alveolar macrophages cultured for up to 48 h and 3 h, respectively. In type II pneumocytes, 7-ethoxyresorufin activity was not detected. 7-Benzyloxyresorufin (BROD) and 7-pentoxyresorufin (PROD) O-dealkylation decreased at 24 h by 84 and 82%, respectively, and continued to decline over the next 24 h with no measurable PROD at 48 h. The activity of NADPH- and NADH-cytochrome c reductase at 48 h decreased by 31 and 67%, respectively. GST activity decreased by 25 and 42% at 24 and 48 h, respectively. A transient increase in DT-diaphorase activity was observed at 24 h (by 55%). GSH content and gamma-GT activity increased significantly with time in culture. In freshly isolated alveolar macrophages, BROD activity was the only cytochrome P450-dependent alkoxyresorufin-O-dealkylase activity measured. BROD activity decreased by 38% in 3-h-attached macrophages. There were no changes in NADPH- and NADH-cytochrome c reductase, GST, and DT-diaphorase. An increase of GSH (by 24%) was observed in attached macrophages. In conclusion, type II pneumocytes and to a lesser extent alveolar macrophages in primary cultures undergo changes in biotransformation-related enzyme activities and intracellular GSH level that may affect xenobiotic toxicity at different times in culture.
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PMID:Xenobiotic-metabolizing enzyme activities in primary cultures of rat type II pneumocytes and alveolar macrophages. 1156 Aug 80

N-nitrosodiethylamine (NDEA) is able to induce tumours in the rat oesophagus. It has been suggested that this could be due to tissue specific expression of NDEA activating cytochrome P450 enzymes. We investigated this by characterizing the oesophageal monooxygenase complex of male Wistar rats and comparing it with that of the liver. Total amount of cytochrome P450, NADPH P450 reductase, cytochrome b5 and cytochrome b5 reductase of the oesophageal mucosa was approximately 7% of what was found in the liver. In addition, major differences were found in the cytochrome P450 isoenzyme composition between these organs: CYP 2B1/2B2 and CYP3A were found only in the liver, whereas CYP1A1 was constitutively expressed only in the oesophagus. Of the two well-known nitrosamine metabolizing enzymes, CYP2A3 was found only in the oesophagus whereas CYP2E1 was exclusively expressed in the liver. Catalytic studies, western blotting and RT-PCR analyses confirmed the expression of CYP2A3 in the oesophagus. CYP2A enzymes are known to be good catalysts of NDEA metabolism. Oesophageal microsomes had a K(m) for NDEA metabolism, which was about one-third of that of hepatic microsomes, but they showed similar activities when compared per nmol of total P450. NDEA activity in the oesophagus was significantly increased by coumarin (CO), which also induced oesophageal CYP2A3. Immunoinhibition of the microsomal NDEA activity showed that up to 70% of this reaction is catalysed by CYP2A3 in the oesophagus, whereas no inhibition of the hepatic NDEA activity could be achieved by the anti-CYP2A5 antibody. NDEA, but not N-nitrosodimethylamine (NDMA) inhibited the oesophageal metabolism of CO. The results of the present investigation show major differences in the enzyme composition of the oesophageal and hepatic monooxygenase complexes, and are in accordance with the hypothesis that the NDEA organotropism could, to a large extent, be due to the tissue specific expression of the activating enzymes.
Carcinogenesis 2001 Nov
PMID:Rat oesophageal cytochrome P450 (CYP) monooxygenase system: comparison to the liver and relevance in N-nitrosodiethylamine carcinogenesis. 1169 52


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