Ascorbic acid inhibits covalent binding of enzymatically generated 2-acetyl-aminofluorene-N-sulfate to DNA under conditions in which it increases mutagenesis in salmonella TA-1538

¹⁴C(Acetyl) N-hydroxy-2-acetylaminofluorene (NOH-2AAF) became covalently bound to DNA during the generation of the reactive N-sulfate ester. Elution of DNA digests from Sephadex LH-20 columns yielded two peaks of radioactivity (Fractions A and B). Fraction B appears to represent a NOH-2AAF-nucleoside adduct, while Fraction A seems to be more clearly related to protein covalent binding. Ascorbic acid decreased NOH-2AAF covalent binding to DNA by approximately 80%, whether total binding or Fraction B is considered. Since ascorbic acid addition increased mutagenesis twelve fold under these conditions, the role of free radicals in the noncovalent ascorbate-dependent increase in mutagenesis is considered.     

The role of ADP-ribosylation processes in the repair of cytogenetic damage in mammalian cells

Nicotinamide (NA) was shown to increase the yield of chromosome aberrations in irradiated Chinese hamster cells. The effect was observed with all doses used (1-4 Gy) and in all phases of the cell cycle; it was maximum as cells transferred from S to G1 phase. The modification of radiation-induced aberrations was more pronounced in the chromatid deletions and in exchanges. The combined action of NA and caffeine showed a synergism. It is assumed that NA inhibits reparation in a different way than caffeine does.     

The rate of sister chromatid exchanges parallel to spontaneous chromosome breakage in Fanconi's anemia and to trenimon-induced aberrations in human lymphocytes and fibroblasts.

The incidence of structural chromosome aberrations and the rate of sister chromatid exchanges (SCE) was investigated in lymphocyte cultures from a patient with typical Fanconi's anemia and his parents. The rate of SCEs was found to be normal. In experiments with the alkylating agent Trenimon the SCE rates proved to be a sensitive indicator for the induction of structural aberrations: in presence of an induced aberration rate half as high as the spontaneous rate in the Fanconi's anemia case, the rate of SCEs was found to be quintupled. Dose-effect relationships for the induction of SCE rates by Trenimon were studied over a wide dose range in lymphocyte and fibroblast cultures. The results reflect the same difference in sensitivity earlier observed in the induction of structural chromosome aberrations, fibroblasts being far more sensitive.     

Genotoxic effects of a sub-acute low-level inhalation exposure to a mixture of carcinogenic chemicals

A study was conducted using a combined testing protocol (CTP), to determine whether short-term biological end-points, singly or in combination, are sufficiently sensitive to identify damage induced by exposure to ambient levels of industrial chemicals. A small-scale inhalation set-up which is both economical and easy to assemble was designed. Mice were exposed to 4 concentrations of a custom-blend mixture of benzene, chloroprene, epichlorohydrin and xylene in a ratio of 2:2:1:2, respectively. The concentrations for benzene, chloroprene and xylene were 0, 0.1, 1.0 and 10 ppm each. Concentrations for epichlorohydrin were half those for the other components. Groups of 22 males and 22 female mice were exposed to each concentration of the mixture for 3 and 6 weeks. Selected biological end-points including urine mutagenesis, bone marrow cell aberrations and micronuclei, spleen lymphocyte aberrations and liver enzyme induction were monitored. The spleen lymphocyte aberrations and liver enzyme induction were the most sensitive end-points. The lymphocytes showed a significant induction of chromosome aberrations from exposure for 3 weeks to all 3 concentrations of the mixtures. After 6 weeks of exposure, significant induction of aberrations was observed after exposure to low and medium concentrations but not to the high concentration. This lack of response at the high concentration after 6 weeks exposure, appeared to correlate with a significant induction of glutathione S-transferase in the liver. Since this enzyme is known to detoxify 3 of the 4 chemicals in our mixture, it may indicate a detoxification mechanism after enzyme induction. The present study indicates that the CTP is sufficiently sensitive to identify toxicological effects after exposure to ambient levels of a gas mixture.     

miR-145-5p attenuates inflammatory response and apoptosis in myocardial ischemia-reperfusion injury by inhibiting (NADPH) oxidase homolog 1

Myocardial ischemia-reperfusion (I/R) injury is a common complication following reperfusion therapy that involves a series of immune or apoptotic reactions. Studies have revealed the potential roles of miRNAs in I/R injury. Herein, we established a myocardial I/R model in rats and a hypoxia/reoxygenation (H/R) model in H9c2 cells and investigated the effect of miR-145-5p on myocardial I/R injury. After 3 h or 24 h of reperfusion, left ventricular end-systolic pressure (LVESP), ejection fraction (EF), and fractional shortening (FS) were obviously decreased, and left ventricular end-diastolic pressure (LVEDP) was increased. Meanwhile, I/R induced an increase in myocardial infarction area. Moreover, a decrease in miR-145-5p and increase in (NADPH) oxidase homolog 1 (NOH-1) were observed following I/R injury. With this in mind, we performed a luciferase reporter assay and demonstrated that miR-145-5p directly bound to NOH-1 3’ untranslated region (UTR). Furthermore, miR-145-5p mimics decreased the levels of tumor necrosis factor (TNF)-α, IL-1β, and IL-6 via oxygen and glucose deprivation/reperfusion (OGD/R) stimulation. Upregulation of miR-145-5p increased cell viability and reduced apoptosis accompanied by downregulation of Bax, cleaved caspase-3, cleaved poly(ADP-ribose) polymerase (PARP) and upregulation of Bcl2. In addition, miR-145-5p overexpression increased superoxide dismutase (SOD) activity and reduced reactive oxygen species (ROS) and malondialdehyde (MDA) content under OGD/R stress. Notably, NOH-1 could significantly abrogate the above effects, suggesting that it is involved in miR-145-5p-regulated I/R injury. In summary, our findings indicated that miR-145-5p/NOH-1 has a protective effect on myocardial I/R injury by inhibiting the inflammatory response and apoptosis.     

Comparison of the levels of chromosome aberration and sister chromatid exchange induced by chemical mutagens in vitro

Dose dependencies of the induction of sister chromatid exchanges (SCEs) and chromosome aberrations were studied under in vivo exposure of mouse bone marrow cells to 5 alkylating agents. The efficacy of the induction of SCEs for all the substances was 20 to 60 times higher than that of the induction of chromosome aberrations. It was demonstrated that SCEs induced by chemical mutagens in vivo and in vitro are more sensitive tests than chromosome aberrations.     

Chromosomal radiosensitivity of ataxia telangiectasia cells at different cell cycle stages

Summary X-ray induced chromosomal aberrations in peripheral blood lymphocytes as well as in skin fibroblasts from ataxia telangiectasia patients, and from normal individuals were studied. At all stages of cell cycles—namely G₀, G₁, and G₂, more aberrations were induced in AT cells than in normal cells. In addition, AT cells were sensitive to induction of chromosomal aberrations by tritium beta rays from incorporated radioactive thymidine. Possible reasons for the increased sensitivity of AT cells for induction of chromosomal aberrations by ionizing radiations are discussed.     

Immunologic response to the influenza virus neuraminidase is influenced by prior experience with the associated viral hemagglutinin. I. Studies in human vaccinees

Analysis of an earlier study of H3N2 and H7N2 inactivated influenza vaccines in schoolchildren demonstrated a greater viral neuraminidase (NA) immunogenicity of the vaccine containing the H7 hemagglutinin (HA) antigen to which they had not been primed, despite the lesser NA antigen content of that vaccine. Thus, prior experience with the influenza viral HA appeared to have a negative influence on immune response to NA, the associated external glycoprotein, presumably on the basis of intermolecular antigenic competition. In a second study, sequential immunologic response to influenza viral NA was compared in college students who were immunized with either conventional commercial vaccine or an antigenic reassortant H7N1 vaccine, and who subsequently experienced natural infection with an H1N1 influenza virus. Although both vaccines were only marginally immunogenic in inducing NA antibody response in seronegative subjects, in vaccinees initially seropositive for HA antibody significant NA antibody titer increases occurred with H7N1 vaccine. Subsequent natural infection boosted NA antibody less effectively in the population previously primed by natural infection than in initially seronegative subjects primed by H7N1 vaccination. It is suggested that primary immunization monospecific for influenza viral NA may alter the subsequent pattern of immune response to one more favorable to the induction of NA antibody when virus is encountered.     

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.     

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.     

Effect of fractionated exposure to carbon ions on the frequency of chromosome aberrations in tobacco root cells

The induction of chromosome aberrations in tobacco root tip cells was measured after exposure to either 18 MeV/n carbon ions or 2 MeV electrons. The RBE value for acute exposure was found to be about 10. Splitting the dose into two fractions did not produce any significant effect on the yield of aberrations following carbon-ion exposure, whereas a clear decrease was observed after exposure to electrons thereby indicating an induction/activation of error-free repair after the first fraction. Moreover, this decrease appeared to be independent of the types of chromosome aberrations. On the other hand, it was suggested that the lack of any significant effect on the yield of aberrations is either due to a lack of error-free repair or to a less efficient damage repair after exposure to carbon ions. Received: 26 February 2001 / Accepted: 28 June 2001     

Induction of chromosome aberrations in lymphocytes of mice after subchronic exposure to benzene

The induction of chromosome aberrations in lymphocytes of mice after subchronic exposure to benzene was investigated. 4 groups of 5 Swiss (ICR) male mice were given orally a solution of benzene every day for 14 days except days 5 and 10. The daily doses were 0, 36.6, 73.2 and 146.4 mg/kg. Mice were sacrificed on day 15, lymphocytes were obtained by perfusion of the spleen and the cells were cultured in RPMI 1640 medium. After 48 h of culture, cells were harvested for cytogenetic analysis. A significant dose-dependent increase in the frequency of cells with chromatid aberrations were found (p less than 0.001). A significant increase in polyploid cells were also observed (p less than or equal to 0.05). This study represents the first report on the induction of chromosome aberrations and polyploid cells in lymphocytes of mice after subchronic exposure to benzene. Such dual activity of benzene suggests that benzene may be responsible for more human health problems than currently estimated.     

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.     

An explanation of interspecific differences in sensitivity to X-ray-induced chromosome aberrations and a consideration of dose-response curves

Using 1-β- -arabinofuranosylcytosine (AraC) which is an inhibitor of DNA-repair resynthesis, previous studies have shown that the frequency of chromosome-type aberrations is influenced by the rate of repair of araC-inhibitable DNA damage. The experiments described here are a further test of this hypothesis and also an attempt to determine if the different sensitivities of lymphocytes of different species to X-ray-induced aberrations are related to the rate of endonucleolytic incision during repair of DNA damage. Unstimulated lymphocytes from 4 species were exposed to an X-ray dose of 200 rad, and then incubated with araC for 0, 1, 2, 3 or 4 h. The aberration frequencies increased in all species up to 3–4 h. It was also clear that the rate of increase was different between species and was approximately proportional to the ratios of X-ray-induced aberrations observed in the absence of araC. For example, human lymphocytes are approximately twice as sensitive as rabbit lymphocytes to the induction of aberrations by X-rays and the rate of increase of aberrations in the presence of araC was about twice as great in human as rabbit lymphocytes. In addition, using 50, 100, 200 or 300 rad of X-rays and treating human lymphocytes for 0, 1, 2 or 3 h in araC post-irradiation, we have shown that the rate of increase in aberrations is proportional to the amount of araC-inhibitable DNA damage; with a limiting dose at about 50 rad. These results appear to provide a basis for interpreting differences in sensitivities to aberration induction among mammalian species.     

Enhancing effects of heterocyclic amines and beta-carbolines on the induction of chromosome aberrations in cultured mammalian cells.

The effects of post-treatment with heterocyclic amines and beta-carbolines on the induction of chromosome aberrations were studied in Chinese hamster CHO K-1 cells and SV40-transformed excision repair-deficient human XP2OSSV cells. The number of chromosome aberrations induced by UV and MMC were increased by post-treatment with Trp-P-1 and Trp-P-2, in both the presence and the absence of S9 mix. A alpha C, MeA alpha C, Glu-P-1, Glu-P-2, IQ, MeIQ, harman and harmine increased chromosome aberrations only in the presence of S9 mix. Glu-P-2, IQ, MeIQ, harman, and harmine did not induce chromosome aberrations by themselves at the concentrations used in this study. Trp-P-1, Trp-P-2, A alpha C, MeA alpha C and Glu-P-1 were weak clastogens by themselves, but at much higher concentrations than those at which they increased the induction of chromosome aberrations in cells pretreated with UV or MMC. Therefore, the increases in chromosome aberrations were not considered to be additive.     

Cytogenetical characterization of Chinese hamster ovary X-ray-sensitive mutant cells xrs 5 and xrs 6. III. Induction of cell killing, chromosomal aberrations and sister-chromatid exchanges by bleomycin, mono- and bi-functional alkylating agents

Two X-ray-sensitive mutants of CHO-K1 cells, xrs 5 and xrs 6, were characterised with regard to their responses to genotoxic chemicals, namely bleomycin, MMS, EMS, MMC and DEB for induction of cell killing, chromosomal aberrations and SCEs at different stages of the cell cycle. In addition, induction of mutations at the HPRT and Na+/K+ ATPase (Oua) loci was evaluated after treatment with X-rays and MMS. Xrs 5 and xrs 6 cells were more sensitive than wild-type CHO-K1 to the cell killing effect of bleomycin (3 and 13 times respectively) and for induction of chromosomal aberrations (3 and 4.5 times). In these mutants a higher sensitivity for induction of chromosomal aberrations to MMS, EMS, MMC and DEB was observed (1.5-3.5 times). The mutants also showed increased sensitivity for cell killing effects of mono- and bi-functional alkylating agents (1.7-2.5 times). The high cell killing effect of X-rays in these mutants was accompanied by a slight increase in the frequency of HPRT mutation. The xrs mutants were also more sensitive to MMS for the increased frequency of TGr and Ouar mutants when compared to wild-type CHO-K1 cells. Though bleomycin is known to be a poor inducer of SCEs, an increase in the frequency of SCEs in xrs 6 cells (doubling at 1.2 micrograms/ml) was found in comparison to no significant increase in xrs 5 or CHO-K1 cells. The induced frequency of SCEs in all cell types increased in a similar way after the treatment with mono- or bi-functional alkylating agents. MMS treatment of G2-phase cells yielded a higher frequency of chromatid breaks in the mutants in a dose-dependent manner compared to no effect in wild-type CHO-K1 cells. Treatment of synchronised mutant cells at G1 stage with bleomycin resulted in both chromosome- and chromatid-type aberrations (similar to the response to X-ray treatment) in contrast to the induction of only chromosome-type aberrations in wild-type CHO-K1 cells. The frequency of chromosomal aberrations chromosome and chromatid types) also increased with MMC treatment in G1 cells of xrs mutants. DEB treatment of G1 cells induced mainly chromatid-type aberrations in all cell types. The possible reasons for the increased sensitivity of xrs mutants to the chemical mutagens studied are discussed and the results are compared to cells derived from radiosensitive ataxia telangiectasia patients.     

Cellular reactions induced by chronic exposure to 14C beta-rays

In V-79 cells the Effects of chronic exposure on induction of chromosome aberrations and abnormal metaphases as well as on efficiency of subsequent exposure to 2 Gy gamma-rays were investigated. It was found that chronic exposure increased the yield of chromosome aberrations as well as abnormal metaphases (spread-metaphases and apoptotic metaphases). In spite of the level of damages in cells, the chronic beta-exposure protected cells against the additional induction of chromosomal aberrations by subsequent exposure to higher acute dose of gamma-irradiation. Cytogenetic adaptive response was retained in the surviving progeny of irradiated cells which were cultured in free medium during 40, 70 days or one year after chronic exposure. At this time the level of residual chromosome aberrations, colony forming ability and distribution of the cells by the number of chromosomes were almost the same as in unirradiated cells. However, the high level of abnormal metaphases and half as much of cells in colony in the surviving progeny of irradiated cells in comparison with unirradiated cell, allow us to suggest that the chronic exposure induced the selection of adaptive forms in condition of the higher level of radiation.     

Persistence of chromatid aberrations in the cells of solid mouse tissues exposed to 137Cs gamma radiation

Primary mouse ear and kidney cultures were established for determination of cytogenetic aberrations at short (3 days to 1 month) and long (12-23 months) times after exposure of their right sides to 7.5 Gy of (137)Cs gamma radiation. In every case, higher levels of aberrations were observed in primary cultures established from the irradiated tissues than in those established from the contralateral tissues. The most common aberrations in the contralateral tissues and those from nonirradiated mice were chromatid and isochromatid breaks and small chromatid fragments. Primary cells from irradiated tissues removed from animals within a month of exposure displayed a variety of unstable chromosome-type aberrations characteristic of recent exposure to ionizing radiation including rings, dicentrics, double minutes, and large acentric fragments. The percentages of cells exhibiting chromatid breaks and small chromatid fragments were also markedly elevated. Although the levels of chromosome-type aberrations found in primary cells from irradiated tissues dropped to near background levels a year or more after exposure, chromatid-type aberrations remained elevated. These results are consistent with long-term persistence of damage in the genomes of ionizing radiation-exposed cells in solid tissues and the induction of genomic instability in vivo.     

Chromosomal analysis of Chinese hamster V79 cells exposed to multiple gamma-ray fractions: induction of adaptive response to mitomycin C.

Chinese hamster V79 cells were irradiated daily with 0.3 Gy of gamma-rays 5 times per week for 12 weeks (total 18 Gy). These cells were challenged with an additional dose of 15. Gy gamma-rays or treated with 5 micrograms/ml of mitomycin C (MMC) for 2 h. In spite of the high total accumulated dose of gamma-rays, the number of chromosomal aberrations and sister-chromatid exchanges (SCEs) did not significantly increase in the preirradiated cells, as compared to control cells. If preirradiated cells were challenged with an additional 1.5 Gy of gamma-rays, an insignificant decrease in the yield of chromatid aberrations was observed. In contrast, preirradiated cells became significantly more resistant to the induction of chromosomal damage when challenged with mitomycin C. Our results suggest that multiple fractions of gamma-rays can induce the adaptive response to mitomycin C in preirradiated cells.