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)

To assess the contribution of reactive oxygen species (ROS) to metal-induced mutagenesis, we have determined the spectrum of mutations in the lacZ alpha gene after exposure of M13mp2 DNA to Fe2+, Cu2+, and Ni2+. With iron and copper ions, mutations are clustered and are predominantly single-base substitutions. Fe, Cu, and phorbol ester-stimulated neutrophils also produced tandem double CC-->TT mutations. This mutation may provide a marker for the role of oxidative damage in carcinogenesis. Mutagenesis by Ni2+ required the complexing of the metal to a tripeptide and the addition of H2O2. To assess the contribution of ROS in mammalian cells, we determined the spectrum of mutations produced when purified DNA polymerases-alpha and -beta synthesized DNA using a template that had been damaged by ROS. The mutation spectra produced by the two polymerases indicates that these enzymes substitute different nucleotides opposite the same lesions.
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PMID:Mutagenesis by metal-induced oxygen radicals. 784 38

Male Fischer rats were maintained for a period of 17 weeks on an iron-deficient diet along with suitable controls. The effect of long term deprivation of iron on xenobiotic metabolism was studied by the activities of various drug metabolising enzymes in both liver as well as extra-hepatic tissues like lungs, kidneys and intestinal mucosa (I.M.). The results show that among the Phase I (activating) enzymes, the hepatic activities of benzo(a)pyrene hydroxylase (AHH) and microsomal epoxide hydrolase (mEH) are significantly reduced in iron deficiency. The other parameters of the activating system, namely cytochrome P450, aminopyrene demethylase (ADM) and aniline hydroxylase (AH), are not altered. Of the two Phase II (conjugating) enzymes studied, only uridine diphospho glucuronyl transferase (UDPGT) is found to be depressed, but not glutathione S-transferase (GST) in liver in iron deficiency. Activities of Phase I enzymes are markedly lowered in extra-hepatic tissues compared to liver; such depression is not observed in conjugating enzymes. Iron deficiency does not seem to make much impact on the enzyme activities of extra-hepatic tissues. Overall, the hepatic results suggest a defect in detoxification mechanisms in iron deficiency. Such impairment may very well predispose an iron-deficient host to an increased risk of carcinogenesis.
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PMID:Effect of long term iron deficiency on the activities of hepatic and extra-hepatic drug metabolising enzymes in Fischer rats. 785 40

Crocidolite or crocidolite pretreated with desferrioxamine-B (DF crocidolite) was exposed to ferrous chloride solutions to determine whether iron could be bound from solution. Native crocidolite was capable of binding up to 57 nmol Fe2+/mg fiber in 60 min, while the DF crocidolite was capable of binding only 5.5 nmol Fe2+/mg fiber. The rate of iron binding for the first 5 min of exposure was independent of the concentration of iron in the solution, suggesting that there was a group of rapidly saturable sites, approximately 1.5 x 10(18) binding sites/m2 crocidolite surface, which were responsible for the immediate binding. This process was followed by a slower binding phase, likely occurring at other sites. Crocidolite and DF crocidolite, with various amounts of iron bound, were assayed for their abilities to catalyze the formation of DNA single-strand breaks (SSBs) in phi X174 RFI DNA. Native crocidolite with additional iron bound did not significantly change in its ability to cause DNA SSBs in 15 or 30 min incubations, even though more iron could be mobilized from the iron-treated crocidolite at 4 or 24 h. DF crocidolite, after the addition of iron, had a significantly increased ability to form DNA SSBs. DF crocidolite with 0, 3.0 or 5.5 mmol Fe2+/mg catalyzed the formation of DNA SSBs in 21, 42 or 51% of the DNA respectively in the presence of EDTA and ascorbate. Fibers were also incubated in tissue culture medium with or without iron salts. The fibers incubated in the iron-containing medium had an increased ability to form DNA SSBs. These results suggest that fibers such as crocidolite may be capable of binding iron from intracellular sources. This additional iron may be as reactive as the intrinsic iron and may increase the reactive lifetime of the fiber.
Carcinogenesis 1995 Feb
PMID:The effect of iron binding on the ability of crocidolite asbestos to catalyze DNA single-strand breaks. 785 64

The relationship between iron deficiency and carcinogenesis was studied using the carcinogen dimethylhydrazine to induce gastrointestinal tumors in Fischer 344 control and iron-deficient rats. Dimethylhydrazine (30 mg/body wt) was administered by gastric intubation 10 times over nine weeks. After 32 weeks, rats were sacrificed, and tumor incidence was assessed. The overall incidence of gastrointestinal tract tumors (colonic and duodenal) was higher in the iron-deficient (66%) than in the control group (46%). Whereas the incidence of colonic tumors was identical in control and iron-deficient groups, the duodenal tumor incidence was significantly elevated in iron deficiency. Five of 15 rats, i.e., 33.3%, in the iron-deficient group developed duodenal tumors; in the control group, only 1 of 15 rats developed a tumor (i.e., 6.6%). Also, iron-deficient rats had multiple tumors. Histological examination of the colon and duodenum revealed that the tumors were adenocarcinomatous in nature. Another notable feature in the iron-deficient group was the presence of atypical cells in the livers of carcinogen-treated iron-deficient rats. This study thus suggests that there is a greater incidence of tumors in iron deficiency and that the proximal part of the intestines seems to be the preferred site. The presence of atypical cells in the liver suggests that in iron deficiency, besides gastrointestinal tract tumors, the liver may also be a favored site for abnormalities.
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PMID:Effect of iron deficiency on DMH-induced gastrointestinal tract tumors and occurrence of hepatocyte abnormalities in Fischer rats. 787 98

Previous studies from our laboratories have shown that catabolism of glutathione (GSH) by gamma-glutamyl transpeptidase (GGT) in the presence of transition metals leads to oxidative damage (OD). This damage is exemplified in vitro by GGT-dependent GSH mutagenesis which involves reactive oxygen species and by GGT-dependent accumulation of lipid peroxidation (LPO) products in systems containing polyunsaturated fatty acid and GSH. In order to test whether catabolism of GSH by membranal GGT in enzyme-altered preneoplastic hepatic lesions can induce oxidative damage in situ, and to test whether the OD is localized in these lesions, 21 day old Fischer rats were treated with 12 mg/kg diethylnitrosamine (DEN) followed by 0.1% or 0.25% phenobarbital (PB) in the diet. Cryostat sections were examined histochemically for GGT-rich hepatic lesions. Adjacent sections were incubated with GSH and iron and examined for areas staining for lipid peroxidation. Distinct LPO-positive areas were shown to correspond well with the GGT-positive hepatic lesions. Promotion with 0.25% PB led to increasing proportions of LPO-positive lesions with time among GGT-positive lesions. The visualization of LPO in GGT-rich hepatic lesions depended on the presence of GSH and iron, and was not observed following chelation of iron by diethyl triaminopentaacetic acid (DTPA), in the presence of acivicin, an inhibitor of GGT, or in the presence of the radical scavenger butylated hydroxytoluene (BHT). The factors affecting GSH-GGT-dependent LPO in the GGT-rich foci were identical to those affecting GSH-GGT-driven LPO in vitro, and were similar to those affecting oxidative GSH-mutagenesis catalyzed by GGT. The results indicate that metabolism of GSH by GGT in preneoplastic liver foci can initiate an oxidative process leading to a radical-rich environment and to oxidative damage. Such damage may contribute to the processes by which cells within such foci progress to malignancy.
Carcinogenesis 1994 Feb
PMID:Localization of oxidative damage by a glutathione-gamma-glutamyl transpeptidase system in preneoplastic lesions in sections of livers from carcinogen-treated rats. 790 7

A detailed study of the ability of chromate in combination with ascorbate to induce DNA single-strand breaks in the absence of iron(II) and copper(II) has been carried out. In solutions containing 1 mM ascorbate and chromate in the range 0.1-1 mM extensive DNA cleavage occurred. Chromate alone or the final product of the chromate/ascorbate reaction were not responsible for the cleavage observed. Evidence is presented that an intermediate generated during the reduction of chromate is the reactive species. No strand breaks occurred upon addition of catalase, pointing to a role for peroxidic species in the steps leading to the generation of the cleaving species. The exclusion of oxygen led to a substantial decrease in the number of strand breaks. Furthermore, the formation of strand breaks declined with decreasing concentrations of phosphate in the phosphate buffers used as the incubation medium. No DNA strand breaks were induced in medium containing HEPES. These observations rule out chromium(V) as the agent directly responsible for the DNA degradation, as chromium(V) is formed during the reduction of chromate by ascorbate in HEPES buffer. Our results lead us to suggest that the DNA-damaging ability of chromate upon reduction by ascorbate arises from the activation of oxygen exacerbated by phosphate and points to a peroxo or superoxo complex involving chromium(V) or chromium(IV) as a possible candidate.
Carcinogenesis 1994 Sep
PMID:The formation of DNA cleaving species during the reduction of chromate by ascorbate. 792 68

The extent of DNA damage and lipid peroxidation induced by kaempferol, a polyphenolic flavonoid with a molecular structure similar to quercetin, was studied under aerobic conditions in isolated rat-liver nuclei. Kaempferol induced significant (P < 0.05) concentration-dependent nuclear DNA degradation concurrent with lipid peroxidation; these effects were enhanced by iron(III) or copper(II). Catalase, superoxide dismutase (SOD), mannitol, and sodium azide did not show any inhibitory effect on the kaempferol-induced nuclear DNA damage in the presence of iron(III) or copper(II). On the other hand, all stimulated the kaempferol-induced DNA damage in the presence of iron(III); in the presence of copper(II) only SOD and mannitol showed statistically significant stimulatory effects. The kaempferol induced lipid peroxidation was significantly stimulated by catalase and sodium azide in the presence of iron(III). These results demonstrate the pro-oxidant properties of polyphenolic flavonoids, which are generally considered as antioxidants and anticarcinogens, suggesting their possible dual role in mutagenesis and carcinogenesis.
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PMID:Kaempferol-induced nuclear DNA damage and lipid peroxidation. 795 31

An iron chelate, ferric ethylenediamine-N,N'-diacetate [Fe(III)-EDDA], was found to produce hydroxyl radicals with hydrogen peroxide, as determined by both a deoxyribose degradation test and electron spin resonance. Hydroxyl radical production was inhibited not only by adding hydroxyl radical scavengers and catalase, but also by adding superoxide dismutase to the reaction mixture, suggesting that superoxide anion may be involved in the hydroxyl radical production. A single injection of Fe(III)-EDDA (10 mg Fe/kg body wt) to Wistar rats induced thiobarbituric acid reactivity in the kidneys and liver. Repeated injections of Fe(III)-EDDA (10 mg Fe/kg body wt, twice weekly for 3 months) induced a 40% incidence of renal tumors, including renal adenocarcinoma and renal adenoma, 1 year later. These results suggest that Fe(III)-EDDA is an effective free radical producer in vitro and in vivo and that it may be useful in preparing animal models related to iron-dependent free radical damage. The results support our hypothesis that endogenous or exogenous iron, complexed with certain kinds of chelators, promotes free radical-dependent tissue damage and ultimately leads to carcinogenesis in the affected tissue.
Carcinogenesis 1994 Dec
PMID:Induction of free radicals and tumors in the kidneys of Wistar rats by ferric ethylenediamine-N,N'-diacetate. 800 Dec 40

Carcinogen-DNA adducts and somatic gene mutation at the hypoxanthine guanine phosphoribosyl transferase (HPRT) locus were evaluated in peripheral leukocytes of workers in an iron foundry with exposure to benzo[a]pyrene (B[a]P) and other polycyclic aromatic hydrocarbons (PAHs). During the two year study period, B[a]P exposure declined by approximately 40%, from a maximum of 60 ng/m3 in the first year to < 36 ng/m3 1 year later. A total of 64 persons were sampled in November/December of the two successive study years; 24 of them gave two samples one year apart. The biomarkers included carcinogen-DNA adducts in leukocytes (PAH-DNA measured by an immunoassay, aromatic-DNA by the 32P-postlabeling method) and HPRT mutation in lymphocytes. After adjusting for smoking, levels of PAH-DNA, aromatic-DNA and HPRT mutation frequency (Mf) increased with exposure among the 64 workers sampled during the 2 year period (P < or = 0.05). However, the markers showed a differential response to the change in exposure, consistent with their individual biology. For example, among the 24 workers sampled in both years, carcinogen-DNA adducts (which have a half-life on the order of several months) were markedly reduced from the first to the second year (PAH-DNA, 6.2 versus 2.3/10(8); aromatic-DNA, 2.5 versus 1.4/(8); P < 0.01). HPRT Mf (a longer-lived marker) was somewhat less affected by the decline in exposure (1.3 versus 0.8, P < or = 0.05). Moreover, in the second year several long-term workers had low levels of adducts, but elevated HPRT Mf. Thus, PAH-DNA and HPRT Mf were highly correlated in the first year (n = 17; r = 0.67; P < 0.01), but not in the second year or in the two years combined. However, when analysis was restricted to workers with detectable levels of adducts (who included the more highly exposed workers) the correlation was significant between PAH-DNA and HPRT (n = 17; r = 0.65; P = 0.005). In contrast, aromatic-DNA adducts and HPRT were not correlated in either year. These results suggest a molecular link between somatic gene mutation and PAHs; and they highlight the need in such molecular epidemiologic studies to consider the varying lifetimes of the individual markers.
Carcinogenesis 1994 Dec
PMID:Carcinogen-DNA adducts and gene mutation in foundry workers with low-level exposure to polycyclic aromatic hydrocarbons. 800 Dec 54

Effects of magnesium basic carbonate (MgCarb) and metallic iron powder (Fe0) on nickel subsulfide (Ni3S2)-induced carcinogenesis were studied in kidneys of male F344/NCr rats. The rats, 20-40/group, received injections of Ni3S2 alone (62 mumol Ni) or with equimolar doses of MgCarb or Fe0 into the renal cortex of each pole of the right kidney. Control rats were given MgCarb, Fe0, or 0.1 ml of 50% aqueous glycerol, the injection vehicle. Final incidence of renal tumors 2 years after the injection of Ni3S2 alone or mixed with Fe0 was 60%. However, rats given Ni3S2 + Fe0 developed renal tumors much more rapidly. In contrast, the incidence of renal tumors in rats given Ni3S2 + MgCarb was only 20% (P < 0.01 vs. Ni3S2 alone). No kidney tumors were observed in the control rats. Between weeks 4 and 32 post injection, Ni3S2 alone caused erythrocytosis. This effect was attenuated by Fe0, but not by MgCarb. Hence, there is no firm correlation between carcinogenic activity of nickel and its ability to induce erythropoiesis. All kidney tumors were of mesenchymal cell origin and resembled the sarcomatous variant of the classic rat renal mesenchymal tumor. Some of them metastasized to the lungs and other organs. In 3-35 days post-injection, kidneys of rats treated with Ni3S2 alone showed moderate to extensive necrosis, inflammation, fibrosis, and degenerative and regenerative proliferative changes in the proximal tubular epithelium at the injection site. Similar, but more severe and multifocal changes were observed in the kidneys of Ni3S2 + Fe0-treated rats. The necrosis was less severe in kidneys injected with Ni3S2 + MgCarb, but fibrosis and degenerative and regenerative changes in proximal tubular epithelium were similar to those observed in other treatment groups. Ni3S2 deposits were seen inside macrophages and proximal tubular epithelial cells of Ni3S2 and Ni3S2+ Fe0-treated kidneys more frequently than in Ni3S2 + MgCarb-treated kidneys. Thus, magnesium antagonizes nickel carcinogenesis in the rat kidney while iron tends to enhance it. This result may be related to respectively attenuating or enhancing effects of magnesium and iron on the inflammatory response to Ni3S2.
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PMID:Iron accelerates while magnesium inhibits nickel-induced carcinogenesis in the rat kidney. 802 38


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