Interaction between chemical mutagens with a delayed effect and metabolites of seeds

Summary A study was made of chromosome aberrations in Crepis capillaris seedlings, induced by the reaction products of chemical mutagens with seed metabolites. Interaction between ethylenimine and seed metabolites of some plants of the family Compositae (C. capillaris, Taraxacum officinale, Pyrethrum carneum, Helianthus annuus) has been found to lead to the formation of highly active secondary mutagens whose action remains similar to that of ethylenimine, although the effect of ethylenimine is enhanced dozens of times. The substances responsible for this enhancement effect are contained in the fruit coating of the seed. The metabolites of seeds of other plants studied (Triticum vulgare, Hordeum vulgare, Fagopyrum esculentum) enhanced the effect of ethylenimine only 1.5–2.0 times. Unlike ethylenimine, the effect of its derivatives (thioTEP and phosphazine) and of ethyl methanesulphonate, HN2 and maleic hydrazide is not enhanced after their interaction with metabolites of compositae plant seeds. Experiments with HN2 revealed an almost complete inactivation of the mutagenic action of NH2 by metabolites of C. capillaris seeds. The observed modification of the mutagenic action of ethylenimine and NH2 after successive treatment of seedlings with mutagens and metabolites of seeds points to the preservation of the mutagen in the cell. It is concluded that when chemical mutagens act on the cells, chromosome aberrations are induced not only by the chemical agent itself, but also by its reaction with cell metabolites.     

Analysis of the types of chromosome aberrations in the combined action of chemical mutagens]

Types of chromosome aberrations were studied in human lymphocyte cultures in combined action of different concentrations of thiophosphamide and dipine in different proportions. The mutagens acted at the Go stage. The range of the concentrations studied was from 3.17-10(-5) M to22.19-10(-5) M. As compared with dipine, the equimolar concentrations of thiophosphamide induced more chromatid exchanges and less sister (isolocus) unions, and also a greater part of single breaks and the part of breaks in the chromatid exchanges of the total number of chromosomal breaks. Both absolute and relative frequencies of chromosome aberrations depended on the mutagens concentration. A change of the thiophosphamide and dipine proportion with a constant total number of molecules of the two mutagens at different concentration levels led to the effect, the level of which was between the effect of action of equimolar concentrations of pure mutagens. This effect depended upon the part of each mutagen in combined treatment. A conclusion was drawn on the additivity of thiophosphamide and dipine action.     

Chromosome aberrations in workers at a tannery in Iraq

Blood samples were collected from 17 healthy chromium-exposed workers at a tanning plant near Baghdad city and 13 controls matched for age, period of service and social background. For each individual more than 100 lymphocyte metaphases were examined. The results showed no significant differences in the per cell frequencies of chromatid and isochromatid gaps, single chromatid breaks, various chromosome-type aberrations and all aberrations combined. However, smoking workers exhibited statistically higher frequency of chromosome-type aberrations than non-smoking workers and smoking controls.     

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.     

The cytogenetic effects of aflatoxin and gamma-rays on human leukocytes in vitro

Chromosomes from human leukocyte cultures in vitro were treated with γ-rays (200 R), aflatoxin (50 μg/ml, dissolved in dimethyl sulfoxide (DMSO)) and with a combination of both. At the time of treatment (48 h) cells were in all stages of interphase but G₁ cells were evidently predominant. All types of chromosome aberration were observed. Frequencies of chromosome-type aberrations were much higher than those of chromatid type after γ-ray treatment, but these types of chromosome aberration did not differ greatly when the cultures were treated with aflatoxin. Apparently the cytogenetic effect of aflatoxin was delayed longer than was that of irradiation. The present data also suggest the additive effect of γ-rays and aflatoxin in the combined treatment.     

Effect of caffeine on intrachromosomal distribution of chromatid aberrations induced by chemical mutagens in Crepis capillaris L

The intrachromosomal distribution patterns of chromatid aberrations induced by N-methyl-N-nitrosourethane (MNU), N-ethyl-N-nitrosourethane (ENU) and ethyleneimine (EI) were compared with those induced by combined treatment with the same mutagens and caffeine, the latter being considered as an inhibitor of post-replication repair of DNA.Chromatid aberrations induced by mutagens alone were distributed non-randomly along the chromosomes. In certain regions few aberrations were located; in others pronounced clustering of aberrations was observed and these regions were considered to be hot spots. This refers especially to MNU- and EI-induced aberrations, whereas ENU-induced chromatid aberrations showed a more length-proportional distribution. In ENU experiments, certain chromosomal segments also represented hot spots, but these were less pronounced. The distribution patterns of chromatid aberrations induced by combined treatment with mutagens and caffeine differed significantly from those observed in experiments with the mutagens only. There seemed to be a tendency to approach random distribution here. This was a result both of the decrease in the quantity of the aberrations in the regions, which in the experiments with mutagens only were hot spots, and of its increase in other chromosomal regions. Some of these regions were considered as hot spots but they were less pronounced. These tendencies refer to MNU and EI. Certain differences between the two variants, with the without caffeine, in ENU experiments were observed but these were of lower expressivity.The causes od differential sensivity of chromosomal regions are discussed. The conclusion is drawn that clustering of chromatid aberrations in certain chromosomal regions is due to differences in the repair systems acting in heterochromatic and euchromatic regions.     

Increased risk of cancer in radon-exposed miners with elevated frequency of chromosomal aberrations

In spite of the extensive use of cytogenetic analysis of human peripheral blood lymphocytes in the biomonitoring of exposure to various mutagens and carcinogens, the long-term effects of an increased frequency of chromosomal aberrations in individuals are still uncertain. Few epidemiologic studies have addressed this issue, and a moderate risk of cancer in individuals with an elevated frequency of chromosomal aberrations has been observed.In the present study, we analyzed data on 1323 cytogenetic assays and 225 subjects examined because of occupational exposures to radon (range of exposure from 1.7 to 662.3 working level month (WLM)). Seventy-five subjects were non-smokers. We found 36 cases of cancer in this cohort.Chromatid breaks were the most frequently observed type of aberrations (mean frequency 1.2 per 100 cells), which statistically significantly correlated with radon exposure (Spearman's correlation coefficient R=0.22, P<0.001). Also, the frequency of aberrant cells (median of 2.5%) correlated with radon exposure (Spearman's correlation coefficient R=0.16, P<0.02). Smoking and silicosis were not associated with results of cytogenetic analyses.The Cox regression models, which accounted for the age at time of first cytogenetic assay, radon exposure, and smoking showed strong and statistically significant associations between cancer incidence and frequency of chromatid breaks and frequency of aberrant cells, respectively. A 1% increase in the frequency of aberrant cells was paralleled by a 62% increase in risk of cancer (P<0.000). An increase in frequency of chromatid breaks by 1 per 100 cells was followed by a 99% increase in risk of cancer (P<0.000). We obtained similar results when we analyzed the incidence of lung cancer and the incidence other than lung cancer separately.Contrary to frequency of chromatid breaks and frequency of aberrant cells, the frequency of chromatid exchanges, and chromosome-type aberrations were not predictive of cancer.     

The effect of wortmannin on radiation-induced chromosome aberration formation in the radioresistant tumor cell line WiDr

We analyzed the formation of radiation-induced chromosome aberrations in the cells of the radioresistant colon carcinoma cell line WiDr after treatment with wortmannin, an inhibitor of PI-3 kinases, including DNA-PK. Cells irradiated in G0/G1 phase with 200 kV X rays were treated with wortmannin before or after irradiation. Chromosome-type and chromatid-type aberrations were scored in metaphase cells by either Giemsa staining or FISH. Moreover, DNA-PK activity was measured in the absence and presence of wortmannin. In irradiated G0/G1-phase WiDr cells, only chromosome-type aberrations, including simple and complex exchanges and excess acentrics, were observed. After addition of 1 to 20 microM wortmannin, the formation of chromosome-type exchange aberrations was completely suppressed. The irradiated cells displayed exclusively chromatid-type aberrations including simple and complex chromatid exchanges and chromatid/isochromatid breaks. Whether the chromatid-type aberrations arise during G0/G1 as a result of homologous recombination processes coping with damaged DNA or whether DNA damage induced during G0/G1 phase persists until S and G2 phase and is then processed by homologous recombination pathways must be investigated further.     

On the expressivity of aberration hot spots after treatment with mutagens showing delayed or non-delayed effects.

The intrachromosomal distribution patterns of chromatid aberrations induced by agents with delayed effects (as exemplified by ethanol and maleic hydrazide) were compared with those produced by agents with non-delayed effects (as exemplified by fast neutrons, X-rays and bleomycin). Despite nonrandomness of aberration distribution in all cases, the mutagens with nondelayed effects generally showed up with much less pronounced aberration hot spots than the mutagens with delayed effects. From the results obtained it is concluded that hot-spot expressivity is a characteristic "group-specific" feature of the two classes of mutagen and that aberration production during DNA replication (S-phase) by agents with delayed effects strongly favours a very pronounced aberration clustering, which is partly mutagen-specific. Possible causes of these differences with respect to hot-spot expressivity after treatment with mutagens showing non-delayed and delayed effects, respectively, are discussed.     

Enhanced expression of X-ray- and UV-induced chromosome aberrations by cytosine arabinoside in ataxia telangiectasia cells

The effect of cytosine arabinoside (ara-C) on the frequency of X-ray- or UV-induced chromosome aberrations was studied in cultured skin fibroblasts derived from 2 normal persons, 4 ataxia telangiectasia (AT) patients and 2 obligate AT heterozygotes. Density-inhibited cells were irradiated with X-rays or UV, post-treated with ara-C, and chromosomes in the first post-irradiation mitoses were examined. UV, a poor inducer of chromosome-type aberrations in G1, caused chromosome-type aberrations (dicentrics and rings) when coupled with ara-C both in normal and AT cells, but to a much greater extent in AT cells. In AT cells, an elevated induction of both terminal deletions and chromatid aberrations was also observed by the application of UV and ara-C, and unexpectedly, UV alone induced a considerable frequency of both types of aberrations. The enhancing effect of ara-C on X-irradiated cells was less pronounced than on UV-irradiated cells. The responses of AT heterozygotes were virtually the same as those of normal cells. These findings suggest that ara-C can convert the UV-induced DNA damage into the type that has a potential to induce dicentrics and rings in G1 as well as to elicit a hypersensitive response of AT cells.     

Frequency of chromosome aberrations induced by mutagens of various functions in cells of the first division at various times of fixation

The dynamics of chromosome aberrations in human lymphocyte culture cells of the 1-st division after exposure in the G0 phase for 1h to functionally different alkylating mutagens - ethyleneimine derivatives (bifunctional phosphamide, threefunctional thiophosphamide, tetrafunctional dipine and pentafunctional photrin) was analysed. The frequency of chromosome aberrations was constant after exposure to "dicentric" mutagens (dipine, photrin) at all times of fixation, while under the action of "monocentric" mutagens (phosphamide, thiophosphamide) this declined significantly with increasing the duration of cultivation. The portion of aberrations of the chromatid remains unaltered in time, in case of both "dicentric" and "monocentric" mutagens, reaching 75% for "monocentric" and 50% for "dicentric" of the total number of chromosome aberrations.     

The biological activity of hydrogen peroxide. I. Induction of chromosome-type aberrations susceptible to inhibition by scavengers of hydroxyl radicals in human embryonic fibroblasts

The cytogenetic effect of hydrogen peroxide (H2O2) was investigated in human embryonic fibroblasts. Chromosome-type aberrations were found together with chromatid-type aberrations in metaphase cells harvested 24 h after a single 10-min treatment with 10(-5)-10(-3) M H2O2 in 0.9% NaCl solution. The chromosome-type aberrations were observed to be predominantly dicentrics and deletions. Both types of aberration showed a dose-response relationship to the dose of H2O2 over the range of 10(-5)-1.5 X 10(-4) M H2O2. The intercellular distribution of dicentrics showed a Poisson distribution. Centric and acentric rings and abnormal monocentrics were a minor fraction of the chromosome-type aberrations. The chromatid-type aberrations observed, such as breaks, exchanges and gaps, showed no dose-response relationship. The frequency of isochromatid breaks was higher than that of chromatid breaks and approximately 70% of the isochromatid breaks were found in the centromeric or pericentromeric region. The intercellular distribution of chromatid exchanges showed an over-dispersed distribution. The generation of aberrations by H2O2 was effectively suppressed by catalase and several scavengers of hydroxyl radicals (.OH) such as ethanol, dimethyl sulfoxide (DMSO) and mannitol. This result suggest that .OH plays an essential role in the generation of the chromosome aberrations by H2O2.     

Lower prevalence of chromosome aberrations and SCEs in self-poisoned pregnant women

A cytogenetic investigation was conducted in 18 self-poisoned pregnant and 16 self-poisoned non-pregnant women and in 31 pregnant and non-pregnant controls. Blood samples for analysis of chromosomal aberrations and SCEs were collected from women who were at different early stages of pregnancy. The difference between self-poisoned women and controls was very highly significant in the case of chromatid-type and unstable chromosome-type aberrations and highly significant in the case of SCEs. Further, the frequency of chromatid aberrations in pregnant women relative to non-pregnant ones was significantly lower suggesting a possible protective effect of pregnancy.     

Chromosomal instability in an oxygen-tolerant variant of Chinese hamster ovary cells

Background levels of chromosomal aberrations and sister-chromatid exchanges (SCEs) were determined in CHO-99 cells, an oxygen-tolerant variant substrain of Chinese hamster ovary (CHO-20) cells capable of stable proliferation under an atmosphere of 99% O2/1% CO2, a level of hyperoxia at which cultured mammalian cells normally cannot survive. The mean chromosomal aberration frequency in CHO-99 cells was as high as 1 aberration per cell (mainly chromatid and chromosome gaps and breaks) versus 0.05 aberration/cell in CHO-20 cells, while the SCE frequency was 1.7- to 2.1-fold increased. While most aberrations were apparently distributed at random over the chromosomes, up to 31% of the aberrations appeared to be involved in site-specific fragility at a homologous site in chromosomes Z3 and Z4. Immediately upon shifting CHO-99 cells to air-equilibrated conditions their SCE frequency decreased to the control level, whereas the aberration rate persisted at a still elevated level of 0.16-0.31 aberration per cell, even after a culture period of 14 weeks under normoxia. This indicates that at least part of the chromosomal instability is a constitutional property of the variant cells, i.e., not directly dependent upon hyperoxic stress. In CHO-99 X CHO-20 hybrids the occurrence of chromatid-type aberrations and fragile site but not that of chromosome-type aberrations was suppressed under normoxic conditions, suggesting that chromatid-type aberrations and fragile site expression on the one hand and chromosome-type aberrations on the other hand are mediated by different constitutional defects in CHO-99 cells. No gross alterations in (deoxy)ribonucleoside triphosphate pools were detected in CHO-99 cells that could be held responsible for their chromosomal instability. In addition, no increased level of DNA damage was detected by the technique of alkaline elution. The excessive chromosomal instability in CHO-99 cells, as observed under hyperoxic conditions, may originate from reactive intermediates giving rise to DNA double-strand breaks and/or a type of DNA lesion that is resistant to the conditions of the alkaline elution technique. However, alternative mechanisms based upon reactive species interfering with DNA replication/repair processes cannot be excluded.     

Participation of the intracellular enzymes in the control of the mutation process

Summary The influence of repair and replication on the frequency of spontaneous chromosome aberrations and of those induced by gamma-irradiation is reported.Using the technique of labelling DNA with radioactive ³H-thymidine and measuring the radioactivity of DNA isolated from embryos, the time of initiation and the duration of DNA synthesis in barley seeds was studied after the soaking of the seeds had begun. The average duration of each phase of the first DNA synthesis cycle in soaking barley seeds was found to be as follows: pre-DNA synthesis stage, 10–11 hrs; DNA synthesis stage, 8 hrs. After gamma-irradiation, the intensity of DNA synthesis decreased and the beginning of DNA synthesis was delayed.It was found that the inhibition of repair by caffeine led to an increase in the frequency of both spontaneous and induced chromosome aberrations. Caffeine enhanced several times the frequency of chromosome and chromatid aberrations at the time of the maximal activity of repair enzymes. During DNA replication, caffeine had a lower effect on the realization of premutational lesions.An inhibitor of DNA replication — hydroxyurea — had no influence on the frequency of spontaneous chromosome aberrations during the replication period, whereas after gamma-irradiation, hydroxyurea enhanced the frequency of aberrations mainly at the stage of DNA replication.The relatively small mutagenic action of both agents (caffeine and hydroxyurea) was observed during all stages of the cell cycle of germinating barley seeds.     

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.     

Analysis of chromosome aberrations in lymphocytes of long-term heavy smokers

We assessed the incidence of structural chromosome aberrations in 500 diploid first-division metaphases from 48-h lymphocyte cultures from each of 6 non-smokers and from 6 persons who had smoked a minimum of 1 pack of cigarettes per day for at least 20 years. Cytogenetic analyses of coded slides revealed a single dicentric chromosome with its accompanying fragment and two symmetrical chromatid exchanges in 3000 metaphases from the non-smokers. In contrast, 9 dicentric chromosomes, 8 translocations or inversions, and 7 chromatid exchanges were observed in 3000 metaphases from lymphocyte cultures from the 6 heavy smokers. A total of 13 metaphases having chromosome-type inter- or intra-changes was noted including 9 with a single aberration, and 4 with 2 or more. Our findings provide additional evidence of the in vivo clastogenicity of cigarette smoke in long-term heavy smokers, and further demonstrate that the distribution of chromosome-type exchange aberrations is overdispersed relative to that expected based on Poisson assumptions.     

Studies on the cytogenetic activity of some common fungicides in higher plants.

Seeds of barley and secondary roots of Vicia faba were exposed to treatments with 23 of the most commonly used fungicides with a view to discovering the effect of these fungicides on the germination, seedling injury and chromosome abnormalities in the former, and the spectrum and frequency of chromosomal aberrations in the latter. Sixteen fungicides reduced the percentage of seed germination, induced seedling injury and produced cytological anomalies of varying degrees in barley. More potent fungicides were further tested in the secondary roots of Vicia faba which were found to produce a significant amount of chromosomal aberrations in the form of chromatid and isolocus breaks and exchanges of chromatid type. Based on theseo bservations, fungicides Dexon, Benlaté, Cerasan, Copperson, Lonocol, Morestan, Hexasan and Karathane could be classified as strong radioimimetic agents. Their role as environmental mutagens in enhancing the spontaneous mutation rate has been discussed and it has been concluded that these constitute genetic and environmental hazards of great magnitude to the eco-system where they are released.     

Efficiency of induced mutagenesis at early stages (gametes,zygotes, proembryos) of ontogenesis in Nigella damascena L.

Summary An original technique has been developed of treating gametes, zygotes and early embryos of Nigella damascena L. with chemical and physical mutagens. A delay in fertilization and a decrease in the rate of cell division of the embryo and the endosperm after mutagen treatment have been found. Our method of treating gametes, zygotes and proembryos with chemical and physical mutagens is, by all criteria, superior to that of treating dry seeds. Treatment applied at early stages of ontogenesis not only induced a much higher mutation ratio compared with dry seeds, but also gave a broader mutation spectrum. The 55 types of hereditary change obtained affect the structure of vegetative and reproductive organs. Mutations which change the structure of the reproductive organs of flowers are of specific interest.The optimum dose for this object and the method of treatment which induces high mutation ratio (up to 96 % of families with changes) is 0.003p (16 hrs) for ethylenimine and 0.005p or 0.008p (16 hrs) for nitrosomethylurea. Treatment of dry seeds turned out to be much less effective.     

Seed aging: chromosome stability and extended viability of seeds stored fully imbided

Increase in moisture content of seeds of Lactuca sativa L. and Fraxinus americana L. in air-dry storage caused a rapid decline in longevity and an increase in the rate of accumulation of chromosome aberrations. Storage of seeds fully imbibed but unable to germinate allowed a high germination capacity to be maintained for long periods, together with a very low incidence of chromosome aberrations. Seedlings grown from dry-stored seeds showed an increase in morphological abnormalities with length of storage, whereas seedlings from imbibed-stored seeds appeared normal. It is suggested that in dry tissues, enzyme-controlled turnover and repair may be temporarily suspended, and that this may be an important factor in the loss of seed viability in storage. The effect of increasing seed longevity by lowering the moisture content of dry-stored seeds is discussed in relation to this hypothesis. The relevance of the proposal is also discussed in relation to ecological studies.