Induction of superoxide dismutase, chromosomal aberrations and sister-chromatid exchanges by paraquat in Chinese hamster fibroblasts

We have recently shown that Bloom syndrome fibroblasts have elevated levels of superoxide dismutase activity compared to those of normal fibroblasts. Based on this observation we decided to test whether an increased rate of superoxide radical production could be responsible for the induction of superoxide dismutase and of chromosomal aberrations and sister-chromatid exchanges characteristic of Bloom syndrome. Utilizing the superoxide-generating herbicide paraquat in Chinese hamster fibroblasts, we assayed the cells for dismutase activity, chromosomal aberrations and sister-chromatid exchanges. All 3 parameters investigated demonstrated a dose-dependent increase with paraquat and, consequently, with the superoxide produced. Since the induction of the enzyme is mediated by its substrate, the superoxide anion radical, we concluded that the increased dismutase activity (in Bloom syndrome and paraquat-treated cells) may be a secondary manifestation of an overall imbalance in oxygen metabolism and that this elevated enzymatic activity is insufficient to detoxify the high superoxide levels, which results in elevated levels of chromosomal damage.     

Induction of chromosomal aberrations in active oxygen-generating systems. I. Effects of paraquat in Chinese hamster cells in culture

A possible role for the superoxide anion radical (O2-) in the clastogenicity of paraquat (PQ) was investigated in cultured Chinese hamster cells. When cells were treated with 0.8 mg/ml of PQ for 3 h followed by 21 h of recovery time, structural chromosome aberrations were induced in about 50% of the metaphases examined. Almost all aberrations were of the chromatid-type and involved exclusively gaps and breaks. The induction of chromosomal aberrations by PQ was enhanced by a 1-h pretreatment with diethyldithiocarbamate, an inhibitor of superoxide dismutase. Diethyl maleate, a glutathione scavenger, also enhanced the induction of chromosomal aberrations, but 3-aminotriazole, an inhibitor of catalase, showed no such effects. Enhanced induction of chromosomal aberrations was also observed when PQ-treated cells were cultured at a high oxygen concentration (80%). The present results suggest that the production of chromosomal aberrations by PQ may be directly or indirectly related to the generation of O2-, but not to the formation of hydrogen peroxide by the dismutation reaction of O2- or of other active oxygen species including the hydroxyl radical and singlet oxygen.     

Participation of active oxygen species in the induction of chromosomal aberrations by cadmium chloride in cultured Chinese hamster cells

The effect of various scavengers of active oxygen species on the induction of chromosomal aberrations by cadmium chloride (CdCl2) was investigated in cultured Chinese hamster V79 cells. Incidences of chromosomal aberrations by CdCl2 were partially or fully reduced by the presence of catalase, mannitol (a scavenger of hydroxyl radicals) and butylated hydroxytoluene (BHT, an antioxidant). These findings may indicate participation of the active oxygen species such as hydrogen peroxide (H2O2) or hydroxyl radicals in the clastogenicity of cadmium. In contrast, superoxide dismutase (SOD) and dimethylfuran (a scavenger of singlet oxygen) did not influence incidences of chromosomal aberrations by CdCl2. These results suggest that superoxide anion and singlet oxygen are not directly involved in the clastogenicity of the metal. The presence of aminotriazole (an inhibitor of catalase) increased incidences of chromosomal aberrations by CdCl2. This emphasizes participation of H2O2 in the clastogenicity of cadmium.     

Effects of iron chelators and glutathione depletion on the induction and repair of chromosomal aberrations by tert-butyl hydroperoxide in cultured Chinese hamster cells

The effects of iron chelators and glutathione (GSH) depletion on the induction of chromosomal aberrations by tert-butyl hydroperoxide (t-BuOOH) were investigated in cultured Chinese hamster V79 cells. t-BuOOH in a concentration range of 0.1-1.0 mM induced chromosomal structural aberrations, consisting mainly of chromatid gaps and breaks, in a dose-dependent fashion. The divalent iron chelator o-phenanthroline almost completely suppressed the formation of chromosomal aberrations while the trivalent chelator desferrioxamine was less effective. GSH depletion did not affect the formation of chromosomal aberrations and DNA single-strand breaks (ssb) by t-BuOOH. DNA ssb by 0.5 mM t-BuOOH were repaired within 60 min of treatment in both GSH-depleted (GSH-) and non-depleted (GSH+) cells. In contrast, chromosomal aberrations increased a little during the 60 min after treatment in both GSH- and GSH+ cells. The aberrations were then repaired in GSH+ cells but those in GSH- cells were maintained to a great extent during 20 h of post-treatment incubation. These results indicate that divalent iron mediates the induction of chromosomal aberrations by t-BuOOH. That t-BuOOH-induced chromosomal aberrations remain even after DNA ssb were repaired suggests involvement of other lesions than DNA ssb in the formation of chromosomal aberrations by the hydroperoxide.     

Active Oxygen Contributes to the Major Part of Chromosomal Aberrations in V79 Chinese Hamster Cells Exposed to N-Hydroxy-2-Naphthylamine

N-hydroxy-2-naphthylamine (NOH-2NA). an active metabolite of human occupational bladder carcinogens, induced, in V79 Chinese hamster cells. chromosomal aberrations which were suppressed in the presence of catalase and/or superoxide dismutase. The induction of the aberrations was more efficient in a more basic pH in parallel with the generation of hydrogen peroxide from NOH-2NA. The possible role of the oxidation product of NOH-2NA in the induction of the aberrations is discussed.     

Chromosomal analyses of human lymphocytes exposed in vitro to caprolactam

Caprolactam was tested for the induction of chromosomal aberrations in cultured human lymphocytes from one male donor and one female donor. At 7.5 mg/ml, caprolactam-treated cells from the male showed a small but significant increase in the frequency of aberrations. No effect was observed in cells from the female if gaps are excluded.     

Chromosomal changes induced by chrysotile fibres or benzo-3,4-pyrene in rat pleural mesothelial cells

The induction of chromosomal aberrations in rat pleural mesothelial cells (RPMC) following in vitro treatment with chrysotile fibres has been demonstrated. The production of chromosomal aberrations was also observed after treatment of the cells with benzo-3,4-pyrene (BP). The yield of abnormal metaphases was dose-dependent and reached 58% at a BP dose of 2 micrograms/ml. Chrysotile fibres at 7 micrograms/ml induced 21% abnormal metaphases and the frequency decreased with further increases in fibre concentration. Their decline is possibly related to a lethal effect. Chrysotile-induced chromosomal aberrations were primarily of the chromatid type and included breaks and fragments. BP induced chromosome exchanges which were not seen following chrysotile treatment. Minutes and double minutes were detected in BP-treated RPMC and occasionally found after chrysotile application. These results confirm that chrysotile fibres are clastogenic for some cultured cells and demonstrate that the fibres induce chromosome damage in target RPMC.     

Induction of chromosome damage by methylene chloride in CHO cells

The genotoxicity of methylene chloride was determined using sister-chromatid exchange (SCE) and chromosome aberration assays in cultured Chinese hamster ovary (CHO) cells. Methylene chloride caused extensive chromosome aberrations both with and without metabolic activation. However, the results of the SCE assay were negative for methylene chloride. These results agree with previously observed genotoxic effects of methylene chloride in Salmonella typhimurium and Saccharomyces cerevisiae. The fact that methylene chloride causes chromosome aberrations without increasing the SCE level indicates that complete reliance on the induction of SCE as a test system for assessing chromosomal effects is not valid.     

Suppression of tumor promoter phorbolmyristate acetate-induced chromosome breakage by antioxidants and inhibitors of arachidonic acid metabolism

To gain insight into the mechanism of formation of chromosomal aberrations by the tumor promoter phorbolmyristate acetate (PMA) in human lymphocytes, we investigated the effect of antioxidants and inhibitors of arachidonic acid metabolism. Among the antioxidants bovine erythrocyte CuZn superoxide dismutase, glutathione peroxidase, mannitol (a scavenger of hydroxyl radicals), butylated hydroxytoluene and butylated hydroxyanisole were anticlastogenic while catalase and dimethylfuran (a scavenger of singlet oxygen) were inactive. These results show that the induction of aberrations by PMA occurs via indirect action, i.e. the intermediacy of superoxide and hydroxyl radicals. The following inhibitors of arachidonic acid metabolism were strongly anticlastogenic: the cyclo-oxygenase inhibitors indomethacin and flufenamic acid and the lipoxygenase inhibitor BN1015. Imidazole, nordihydroguaiaretic acid BN 1048 and 5,8,11,14-eicosatetraynoic acid were moderately active. The inhibitor of phospholipase A₂, fluocinolone acetonide, was also anticlastogenic.

We conclude that the oxidative metabolism of arachidonic acid is involved in the induction of chromosomal aberrations by PMA in human lymphocytes. However, because of the limited selectivity of these drugs, it is not yet possible to identify unambiguously the step(s) in the arachidonic acid cascade responsible for PMA clastogenicity.     

Clastogenic and Mutagenic Actions of Active Species Generated in the 6-Hydroxydopamine/Oxygen Reaction: Effects of Scavengers of Active Oxygen, Iron, and Metal Chelating Agents

A pro-oxidant triphenol, 6-hydroxydopamine (6-OHDA), induced mutations in the Salmonella typhimurium TA104 tester strain (over the concentration range to 800/JM), and induced chromosomal aberrations in cultured Chinese hamster ovary (CHO) cells at lower concentrations (up to 90 μM). It was however only marginally mutagenic (up to cytotoxic levels of 200 μM) in the TA102 tester strain. Clastogenicity in the more sensitive CHO cell assay was mediated by activated oxygen. Superoxide dismutase decreased the incidence of chromosomal aberrations by 60% and catalase (or superoxide dismutase plus catalase) decreased the incidence to control levels. The clastogenicity of 6-OHDA was dependent upon unsequestered transition metal ions, since addition of EDTA plus desferoxamine decreased chromosomal aberrations by 90%. The simplest explanation of the data is that genotoxicity is mediated by active species generated in a Fenton-type reaction between 6-OHDA and H₂O₂ catalyzed by traces of metals in the medium.     

Induction of chromosomal aberrations in active oxygen-generating systems. II. A study with hydrogen peroxide-resistant cells in culture

Cells hyper-resistant to hydrogen peroxide (H2O2) were obtained from a Chinese hamster cell line (CHL) by repeated treatments with H2O2 at stepwise increasing concentrations. A clonal line (R-8) was approximately 10 times more resistant to H2O2 than the parental cells, and retained its resistance for about 2 months in normal medium. However, with further passages after the completion of the present study, the elevated resistance gradually decreased. Although the concentration of H2O2 required to induce chromosomal aberrations in 50% of treated cells was about 10 times higher in R-8 than in the parental cells, there were no distinct differences between the cells in the induction of chromosomal aberrations by 3 alkylating agents (N-methyl-N'-nitro-N-nitrosoguanidine, N-ethyl-N-nitrosourea and mitomycin C). The catalase activity of R-8 was 10-fold in comparison with the parental cells, but no obvious differences were seen in the activities of superoxide dismutase (SOD), glutathione peroxidase and glutathione reductase. Therefore, the elevated H2O2-resistance seemed to be associated with the enhanced catalase activity. The induction of chromosomal aberrations in two O2- generating systems--xanthine oxidase plus hypoxanthine (XO + HX), and paraquat--was compared between R-8 cells and the ordinary CHL cells. XO + HX produced chromosomal aberrations in the parental cells but not in the R-8, while paraquat induced almost the same level of aberrations in both cell lines. This finding suggests that different active oxygens are responsible for the induction of aberrations in these two O2- generating systems, i.e., H2O2 in XO + HX and O2- in paraquat.     

Correlation of the sister chromatid exchange level with chromosome aberrations induced by chemical mutagens in vivo

The data on the dose dependencies of the induction of sister chromatid exchanges (SCE) and chromosomal aberrations during exposure of mouse bone marrow cells in vivo to 5 alkylating substances are provided. The efficacy of SCE induction was found to be higher than that of chromosomal aberrations. It was established that SCE induced by chemical mutagens in vivo and in vitro are more sensitive and stable tests than chromosomal aberrations.     

Persistent oxidative stress after ionizing radiation is involved in inherited radiosensitivity

The SW620IR1 cell line was derived from SW620 human colon cells surviving to ionizing radiations. It shows an increased radiosensitivity and a higher yield of spontaneous chromosomal aberrations. In order to check whether altered reactive oxygen intermediates (ROI) metabolism is involved in this inherited phenotype, we compared the two cell lines for their radiation-induced modifications at the level of ROI production, antioxidant activities, and chromosomal aberrations. Compared to SW620, SW620IR1 cells exhibit a higher and more persistent ROI induction after various doses of ionizing radiations and a higher yield of dicentric chromosomes. They are also characterized by lower basal activities of glutathione peroxidase and manganese-containing superoxide dismutase, and lower ability to induce these antioxidant defenses after irradiation. Resumption of cell growth after irradiation coincides with maximal induction of antioxidant activities and normalization of ROI concentration. However, at that time radiation-induced chromosomal aberrations are not completely eliminated, leading to the proliferation of genetically unstable cells. These results indicate that the inherited sensitivity of SW620IR1 cells is associated with altered antioxidant activities resulting in higher and more prolonged oxidative stress after radiation exposure. They also suggest that the normalization of ROI levels allows these p53 mutant cells to resume proliferation although high levels of DNA damages are still persisting, thereby explaining the chromosomal instability observed as a delayed effect of radiation exposure.     

Transplacental action of sodium nitrite on embryonic cells of Syrian golden hamster

Hamster embryos were treated with various doses of NaNO2 in utero, by its oral administration to the mothers, and then the embryonic cells were examined for micronucleus formation, chromosomal aberrations, morphological or malignant transformation and drug-resistant mutations. For induction of resistant mutations, the cells were cultured in normal medium for 72 h, and then selected in media containing 8-azaguanine (10 or 20 microgram/ml) or 1 mM ouabain. This treatment with NaNO2 caused marked dose-dependent induction of 8-azaguanine- and ouabain-resistant mutations. Cultured embryonic fibroblasts in the resting state also showed a marked dose-dependent increase in micronucleus formation but not an increase in chromosomal aberrations. This treatment also caused morphological and neoplastic transformation of the cells. Transplacental oral treatment with DMN, as a positive control, caused changes of similar extent in biological effects of embryonic fibroblasts, and in addition it caused chromosomal aberrations in metaphase plates. On the contrary, transplacental oral application of NaNO2 did not induce any biological change in cultured embryonic fibroblasts.     

Genotoxic effects of o-phenylphenol metabolites in CHO-K1 cells

The effects of microsomal activation and/or deactivation on the induction of chromosomal aberrations and sister-chromatid exchanges (SCEs) in cultured Chinese hamster ovary cells (CHO-K1 cells) by o-phenylphenol (OPP) were studied, and concurrently the metabolites were determined. After a 3-h incubation in the presence of 15% S9 mix (45 microliters/ml of S9), OPP (25-150 micrograms/ml) dose-independent SCEs and chromosomal aberrations were induced, while the amount of phenylhydroquinone (PHQ) metabolite produced from OPP did not increase linearly in the higher doses. The maximum induction of chromosomal aberrations was 18% at the 150 micrograms/ml dose, and of SCEs 13.8/cell at 75 micrograms/ml. The corresponding control values were 3% and 5.8/cell. The lowest dose required to induce SCEs in the presence of S9 mix was 25 micrograms/ml. Changing the percent of S9 mix (0-50%) while holding the OPP dose constant (100 micrograms/ml) produced a correlation between SCEs and the production of PHQ. PHQ caused cytogenetic effects both with and without S9 mix, however, in the absence of S9 mix it was more lethal and was oxidized to phenylbenzoquinone (PBQ). These results suggest that the enhanced cytogenetic effects of OPP by the addition of S9 mix correlated with the amount of PHQ produced or with the further oxides of PHQ such as phenylsemiquinone and/or PBQ which are capable of being produced from PHQ spontaneously or by the mixed-function oxidase system.     

Bleomycin-induced chromosomal aberrations in Down's syndrome lymphocytes

Blood samples from 4 Down's syndrome (DS) patients with a 47,XY,21 + karyotype and from 4 normal male probands were cultured for 72 h in the presence of BrdU and lymphocytes analysed at their first mitosis for chromosomal aberrations. The frequencies of spontaneous aberrations and the proportions of cells in the first or later mitoses in culture were not different between the groups. Treatment with various doses of bleomycin in vitro resulted in similar delays in cell development for both DS and normal lymphocytes and dose-dependent increases in the incidence of chromosome-type aberrations. However, the induction of both dicentric aberrations and acentric fragments was significantly enhanced in DS cells relative to cells of normal karyotype.     

Comparative effectiveness in the induction of sister chromatid exchanges and chromosome aberrations

The dose curves for 5 chemicals were studied to compare the efficiency of induction of SCEs and chromosomal aberrations by "polycentric" mutagens. The number of SCEs was found to increase linearly with the dose while that of chromosomal aberrations--nonlinearly. The efficiency of SCEs induction by these mutagens was found to be 25-50 times as high as in the induction of chromosomal aberrations. Division of alkylating mutagens into "monocentric" and "polycentric" is shown to be useful. It reflects their different efficiency in damaging one or simultaneously two DNA strands. The correlation between SCEs and formation of aberrations of the chromatid type is stated.     

Cytogenetic effect of the anticancer drug epirubicin on Chinese hamster cell line in vitro

The present study demonstrated the cytogenetic effect of the anticancer drug epirubicin on cultures of Chinese hamster cell line in vitro. The cultures were exposed to the drug for 24 h at three final concentrations; 10, 20 and 40 microg/ml. All treatments were carried out in the absence of any exogenous metabolic activation system.The different types of structural chromosomal aberrations, including gaps, breaks, deletions and fragments were increased in epirubicin-treated cultures. This increase was dose dependent where there was a positive correlation between increased drug concentration and induction of structural chromosomal aberrations. Also, the numerical chromosomal aberrations, including hypodiploidy and hyperdiploidy, were increased significantly in epirubicin-treated cultures. Like structural aberrations, the increase of numerical chromosomal aberrations was also dose-dependent.The frequency of sister chromatid exchanges in cultures treated with epirubicin increased significantly and this increase was dose-dependent. On the other hand, the epirubicin significantly decreased the mitotic index in treated cultures of Chinese hamster cell line.     

Mutagenic effect of orally given AF-2 on embryonic cells in pregnant syrian hamsters

Pregnant hamsters were given various doses of AF-2 by stomach tube; then the cells of their embryos were isolated and cultured in normal medium. Chromosome preparations were made within 24 h after the start of primary culture, and examined for chromosomal aberrations. Marked chromosomal abnormalities were observed in cells of embryos of animals treated with AF-2 at over 20 mg/kg. Samples of surviving cells were also cultured in normal medium for 48 h, and then selected in medium containing 8AG or 6TG. This treatment with AF-2 caused marked dose-dependent induction of SAG- or 6TG-resistant mutations: mutant colonies were even obtained after a single treatment with 2 mg of AF-2 per kg. These results show that this is a sensitive and useful mammalian system for detecting environmental mutagens.