The induction and repair of DNA damage detected by the DNA precipitation assay in Chinese hamster ovary cells treated with acridine orange + visible light

The photodynamic effect of the dye acridine orange (AO) in combination with visible light (400-700 nm) was studied in Chinese hamster ovary (CHO) cells, the endpoints investigated being induction, as well as repair, of DNA strand breaks. Cells were treated for 20 min with AO (0.1-3.0 micrograms/ml), washed free of excess dye and subsequently exposed to low doses of visible light (2 x 40 W/8 W/m2) for 5-15 min. AO proved to be an efficient sensitizer for light-induced DNA strand breaks, detected with the DNA precipitation assay, and expressed as percentage of DNA precipitated. The induction of breaks was linear up to 0.5 micrograms/ml AO + 10 min of light, which corresponds to 55% precipitated DNA, and was dependent on the concentration of AO as well as on the dose of light delivered. As a comparison, 18 Gy of X-rays was required to yield an equivalent amount of induced DNA strand breaks. The rejoining of the light-induced DNA strand breaks was studied by incubating the AO-sensitized cells for 30-120 min at 37 degrees C directly after light exposure. A fast recover of 67-91% of the damage (compared to initial damage, recovery time = 0, and dependent on the concentration of AO) was observed during the first 30 min of incubation. However, a significant amount of DNA damage remained after 2 h of recovery. These remaining, long-lived lesions might be involved in the photoinduced and acridine-sensitized chromosomal aberrations and sister-chromatid exchanges (SCE). The significance of these observations is discussed in relation to AO-sensitized and photoinduced DNA damage and chromosomal alterations.     

The induction of chromosomal aberrations and SCEs by visible light in combination with dyes. II. Cell cycle dependence, and the effect of hydroxyl radical scavengers during light exposure in cultures of Chinese hamster ovary cells sensitized with acridine orange

Chinese hamster ovary (CHO) cells were synchronized by mitotic shake-off, treated with the fluorochrome acridine orange (AO; 0.5 micrograms/ml), washed free of excess dye and subsequently exposed to visible light (2 X 40 W/8 Wm-2). The light exposure was performed on cells in the G1, G1/S, S or G2 phase of the cell cycle. AO + light induced high frequencies of aberration in the S phase and even higher in the G1 phase. The aberrations observed were all of the chromatid type. The chromosome-type aberrations (dicentrics, rings) obtained when cells in the G1 phase were exposed to X-rays were not found after corresponding treatments with AO + light. With the exception of an increased frequency of gaps, no chromosomal aberrations were induced in G2-phase cells. Sister-chromatid exchanges were efficiently produced by the photodynamic system in the G1, G1/S and S phase of the cell cycle. In other experiments, AO-treated unsynchronized CHO cells were exposed to light in the presence of the hydroxyl radical scavengers mannitol (100 mM) and 5-dimethyl thiourea (100 mM). In parallel experiments these scavengers were found to reduce markedly the chromosome breaking effects by X-rays but had no influence on the photodynamic induction of chromosomal alterations. The results presented show that the visible light-induced chromosomal alterations in CHO cells sensitized with the fluorochrome AO are obtained by an S-dependent mechanism. Furthermore, the results indicate that the hydroxyl free radical does not play a major role in the production of chromosomal alterations by AO + light.     

The effect on sister-chromatid exchanges of drugs and dyes by intercalation and photoactivation.

Intercalating dyes (acridine orange, proflavin and methylene blue) and drugs (chlorpromazine, promazine and chlorprothixene) were tested for their ability to induce sister-chromatid exchanges (SCEs) with and without photoactivation by visible light. Whereas in the dark all substances tested increased the frequency of SCEs, a superimposed effect of visible light on SCE formation was observed for the acridines proflavin and acridine orange, but not for the pheneothiazine derivatives methylene blue and chlorpromazine. These results are discussed in connection with the known mutagenic effects of these substances and with the factors that may be involved in SCE formation induced by intercalating molecules in the absence and presence of visible light.     

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.     

Response of X-ray-sensitive CHO mutant cells (xrs-6c) to radiation. II. Relationship between cell survival and the induction of chromosomal damage with low doses of alpha particles

The induction of cytotoxicity, chromosomal aberrations, and sister chromatid exchanges (SCEs) was measured in CHO K-1c cells and in isogenic X-ray-sensitive mutant xrs-6c cells that had been irradiated with X rays and alpha particles in isoleucine-deficient alpha-minimal essential medium in G1 phase of the cell cycle. There was a noticeable shoulder region on the survival curve for CHO K-1c cells irradiated with very low doses of alpha particles, whereas this feature was absent for xrs-6c cells with alpha-particle doses as low as 0.5 cGy. Higher frequencies of chromatid-type aberrations were induced in G1-phase xrs-6c cells than in G1-phase CHO K-1c cells by both gamma- and alpha-particle irradiation. Induction of nonlethal chromosomal aberrations was observed following exposure to 2-6 cGy of alpha particles, doses yielding 97-100% cell survival. Irradiation with 0.5 cGy of alpha particles induced SCE; nearly 60% of irradiated cells contained significantly increased levels of SCE. However, only 3% of the nuclei of cells exposed to 0.5 cGy of alpha-particle radiation were actually traversed by an alpha particle. The observation that a large fraction of cells apparently survive exposure to very low doses of alpha-particle radiation with persistent genetic damage manifested by both chromosomal aberrations and SCEs may have important implications for the carcinogenic hazards of high-LET radiation.     

Bimodal distribution of sensitivity to SCE induction by diepoxybutane in human lymphocytes. I. Correlation with chromosomal aberrations

We carried out a cross-sectional analysis of sister-chromatid exchanges (SCEs) and chromosomal aberrations induced by diepoxybutane (DEB) in lymphocyte cultures from 58 normal blood donors. DEB-induced SCE frequencies were measured in all subjects and chromosomal aberrations in 18. Analysis of variance was used to assess the contributions of exposure to organic solvents, age, smoking history, alcohol and coffee consumption, and red and white blood cell counts to variations in DEB-induced SCEs. In 10 individuals, the epoxide-detoxifying enzyme, glutathione (GSH)-S-transferase mu, was also measured. We observed a bimodal distribution of DEB-induced SCEs in the study population. Approx. 24% of the individuals were twice as sensitive to the induction of SCEs by DEB as the remaining 76%. Lymphocytes from persons sensitive to SCE induction by DEB contained a 4.4-fold increase in the number of DEB-induced chromatid deletions and exchanges. Within sensitive and resistant groups, significant interindividual variations in DEB-induced SCE frequencies were noted. Cigarette smoking was weakly associated with lower SCE frequencies within each group. Genetic deficiency in GSH-S-transferase mu was not correlated with increased sensitivity to SCE induction by DEB. Sensitivity to induction of SCEs by DEB can be rapidly determined and may be a marker of sensitivity to the induction of genotoxicity by certain classes of mutagens.     

Role of homologous recombination in the alpha-particle-induced bystander effect for sister chromatid exchanges and chromosomal aberrations

The bystander effect for sister chromatid exchanges (SCEs) and chromosomal aberrations was examined in hamster cell lines deficient in either DNA-PKcs (V3 cells, deficient in nonhomologous end joining, NHEJ) or RAD51C (irs3 cells, deficient in homologous recombination, HR). Cells synchronized in G0/G1 phase were irradiated with very low fluences of alpha particles such that < 1% of the nuclei were traversed by an alpha particle. Wild-type cells showed a prominent bystander response for SCE induction; an even greater effect was observed in V3 cells. On the other hand, no significant induction of SCE was observed in the irs3 RAD51C-deficient bystander cells irradiated at various stages in the cell cycle. Whereas a marked bystander effect for chromosomal aberrations occurred in V3 cells, the induction of chromosomal aberrations in irs3 bystander cells was minimal and similar to that of wild-type cells. Based on these findings, we hypothesize that HR is essential for the induction of SCE in bystander cells; however, HR is unable to repair the DNA damage induced in NHEJ-deficient bystander cells that leads to either SCE or chromosomal aberrations.     

Die wirkung von Trypaflavin allein und in Kombination mit sichtbarem Licht auf die Chromosomen von HeLa-Zellen und menschliche Leukocyten

Summary Baldermann (1967) and Brucklacher (1968) investigated the effect of acridines on spermato- and oogenesis in mice. In both experimental series acridines were found mild mutagenes.This paper reports the induction of chromosomal aberrations in HeLa cells and cultured peripheral lymphocytes by the acridine trypaflavine (24 h of treatment). In addition the influence of visible light (1 h) was tested in these systems.In both cell types 10^-6 mol/l trypaflavine induces mainly chromatid gaps and breaks and reduces the mitotic rate. Light increases breakage of chromosomes in concentrations from 10^-7 to 10^-9 mol/l trypaflavine. Under these conditions there was also an increase of reunion figures in lymphocytes.Treatment with trypaflavine plus light lead to endomitosis and endoreduplication when chromosome preparations were made 24 h after the mutagen was removed from HeLa cells. In lymphocytes tetraploids appeared in experiments with 1 h of light 20 h before harvesting.It is supposed from the data that trypaflavine acts as a mutagenic agent to human cells, if the single cell is directly in contact with a concentration of 10^-6 mol/l.

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Mit Unterstützung durch die Deutsche Forschungsgemeinschaft.     

Comparison of the level of sister chromatid exchanges and chromosome aberrations induced by chemical mutagens in vitro and in vivo

The paper presents results of a study of a dose dependence of induction of SCE and chromosomal aberrations at the exposure of human lymphocytes in vitro and bone marrow cells of mice in vivo to 5 alkylating chemicals. The efficiency of SCE induction in vitro is found to be 300-30 times as high as that of arising of chromosomal aberrations. The same regularity is observed in experiments in vivo, but the ratio is reduced to 60-20 times.     

The relevance of caffeine post-treatment to SCE incidence induced in Chinese hamster cells

The influence of caffeine post-treatment on sister-chromatid exchanges (SCE) and chromosomal aberration frequencies on Chinese hamster cells exposed to a variety of chemical and physical agents followed by bromodeoxyuridine (BrdUrd) was determined. After 2 h treatment, N-methyl-N′-nitrosoguanidine (MNNG) and cis-platinum(II)diamine dichloride (cis-Pt(II)) induced a 7- and 6-fold increase in SCE, respectively, while 4-nitroquinoline-1-oxide (4NQO), methyl methanesulfonate (MMS), proflavine, and N-hydroxyfluorenylacetamide (OH-AAF) caused a 2–3-fold increase in SCE compared to controls treated with BrdUrd alone. Ultraviolet light doubled the number of SCE. The lowest increase of SCE was obtained with bleomycin and X-irradiation. Caffeine post-treatment caused a statistically significant increase in the frequency of SCE induced by UV- and X-irradiation as well as by 4NQO and MMS but did not alter the number of SCE induced by MNNG, cis-Pt(II), proflavine, OH-AAF, and bleomycin.

Caffeine post-treatment increased the number of cells with chromosomal aberrations induced by MNNG, cis-Pt(II), UV, 4NQO, MMS, and proflavine. With the exception of proflavine, these agents are dependent on DNA and chromosome replication for the expression of the chromosomal aberrations. Caffeine enhancement of cis-Pt(II) chromosomal aberrations occurred independently of the time interval between treatment and chromosome preparations. Chromosomal damage produced by bleomycin and X-irradiation, agents known to induce chromosomal aberrations independent of “S” phase of the cell cycle, as well as the damage induced with OH-AAF was not influenced by caffeine post-treatment.

The enhancement by caffeine, an inhibitor of the gap-filling process in post-replication repair, of chromosomal aberrations induced by “S” dependent agents, is consistent with the involvement of this type of repair in chromosomal aberration formation. The lack of inhibition of SCE frequency by caffeine indicates that post-replication repair is probably not important in SCE formation.     

Induction of sister chromatid exchanges in human cells by fluorescent light.

The Brd-U differential staining technique was utilized to examine the induction of sister-chromatid exchanges (SCE) by fluorescent ligt in human fetal lung fibroblasts (IMR-90). Exposure of these cells in media to fluorescent light resulted in an increase in SCE frequencies from a background level of 8.5 SCE/cell to 20.5 SCE/cell. Cellular replication kinetics were also inhibited by fluorescent light exposure. Exposure of cells to fluorescent light in phosphate buffered saline (PBS) resulted in a two-fold increase in SCE levels and incresed inhibition of cell replication, indicating that culture media may have a protective effect. Determinations of SCE frequencies with blocking filters indicated that the fluorescent light wavelengths responsible for SCE induction were in the near-ultraviolet spectrum between 300 and 390 nm. Culturing cell sin media that had been exposed to fluorescent light resulted in a significant increase in SCE levels, 14.5 ± 1.5 vs. 7.5 ± 0.65, demonstrating the contribution of media photoproducts to SCE induction. The role of media photoproducts was further reinforced by finding a significant decline in fluorescent light induced SCE in cells cultured in medium deficient in three known photosensitizers (phenol red, tetracycline and riboflavin) for 2–3 weeks prior to exposure.Since SCE have been shown to be a sensitive indicator of DNA damage, these results indicate that fluorescent light can induce genetic damage in human cells. These findings are also of importance to investigators culturing cells in laboratories with fluorescent illumination.     

Biochemical and cytogenetical characterization of Chinese hamster ovary X-ray-sensitive mutant cells xrs 5 and xrs 6. V. The correlation of DNA strand breaks and base damage to chromosomal aberrations and sister-chromatid exchanges induced by X-irradiation

The X-ray-sensitive Chinese hamster ovary (CHO) mutant cell lines xrs 5 and xrs 6 were used to study the relation between X-ray-induced DNA lesions and biological effects. The frequencies of chromosomal aberrations and sister-chromatid exchanges (SCE) were determined in wild-type CHO-K1 as well as mutants xrs 5 and xrs 6 cells following X-irradiation under aerobic and anaerobic conditions. Furthermore, we used a newly developed immunochemical method (based on the binding of a monoclonal antibody to single-stranded DNA) to assay DNA single-strand breaks (SSBs) induced by gamma-rays in these CHO cells, after a repair time of up to 4 h. For all cell lines tested the frequency of X-ray-induced chromosomal aberrations was strongly increased after irradiation in air compared with hypoxic conditions. When compared to the wild-type line, the xrs mutants known to have a defect in repair of DNA double-strand breaks (DSBs) exhibited a markedly enhanced sensitivity to aerobic irradiation, and a high OER (oxygen enhancement ratio) of 2.8-3.5, compared with 1.8-2 in CHO-K1 cells. The induction of SCE by X-rays was relatively little affected in CHO-K1 irradiated in air compared with hypoxic conditions (OER = 0.8), and in xrs 5 (OER = 0.7). A dose-dependent increase in the frequency of SCEs was obtained in xrs 6 cells treated with X-rays in air, and a further increase by a factor of 2 was evident under hypoxic conditions (OER = 0.4). With the immunochemical assay of SSB following gamma-irradiation, no difference was found between wild-type and mutant strains in the number of SSBs induced. The observed rate of rejoining of SSBs was also the same for all cell lines studied.     

Induction of cytoplasmically inherited respiration-deficient ('petite') mutants by photodynamic action of acridine compounds

All acridines used (acriflavine, proflavine, acridine orange and 3-azido-10-methylacridinium chloride) produced killing in yeast cells when activated with visible light. Acriflavine, proflavine and 3-azido-10-methylacridinium chloride, but not acridine orange, produced petite and sectored colonies. Both cell killing and petite induction by light activation of acriflavine resulted apparently from photodynamic action mediated by singlet oxygen (1O2) since the effect were prevented by either sodium azide or anaerobiosis. The biological effects of 3-azido-10-methylacridinium chloride, which was developed as a potential photoaffinity probe for studying the binding and biological effects of acridines, appeared to be due to a photodynamic action analogous to that of acriflavine. Sodium azide or anaerobiosis prevented the light-activated effects of 3-azido-10-methylacridinium chloride despite the fact that the initial chemical breakdown of the azido derivative induced by light was not affected. Cells suspended in D2O demonstrated an enhanced response to 3-azido-10-methylacridinium chloride with irradiation. These results indicate that singlet oxygen mediates the light-activated biological effects of both acriflavine and 3-azido-10-methylacridinium chloride.     

Chromosomal aberrations and sister-chromatid exchanges in workers exposed to styrene

Few studies exist about chromosomal damage in workers occupationally exposed to styrene. In the present study, chromosomal aberrations and SCEs were analyzed from cultures of peripheral lymphocytes of workers employed in 6 different reinforced-plastics industries with styrene air exposure levels ranging from 30 to 400 mg/mc. A control group was selected on the base of sex, age and smoking habit. We examined 50-h cultures (for chromosomal-aberrations) and 72-h cultures (for SCEs) for each individual. All workers exposed to styrene, as compared with controls, showed significantly increased frequencies of chromosomal aberrations, while SCEs were significantly increased at 4 of the 6 plants. High SCE values appeared with styrene air concentrations higher than 200 mg/mc. Apart from the possible presence and role of other interfering chemicals in the various plants, chromosomal aberrations seem to be more sensitive than SCEs for the detection of chromosomal damage caused by exposure to low doses of styrene.     

Photoreactivation of UV induced cell killing, chromosome aberrations, sister chromatid exchanges, mutations and pyrimidine dimers in Xenopus laevis fibroblasts

Summary Fibroblasts from Xenopus laevis, which possess photoreactivating enzyme were used to study the influence of photoreactivating light on the frequency of pyrimidine dimers in DNA, chromosomal aberrations, sister chromatid exchanges, cell killing and the induction of gene mutations (ouabain-resistance) induced by 254 nm ultraviolet irradiation. The frequency of all biological endpoints studied were reduced following exposure to photoreactivating light parallel to the reduction in the frequencies of pyrimidine dimers (determined as endonuclease sensitive sites). However there was not always an absolute quantitative relationship between the reduction in the frequency of pyrimidine dimers and the reduction in the biological effects. This probably reflects a fast fixation process for the biological effects prior to removal of the dimers by photoreactivation.Abbreviations UV ultraviolet - PR photoreactivating - ESS endonuclease sensitive site - SCE sister chromatid exchanges - BrdUrd 5-brothodeoxyuridine     

The low dose and low dose rate cytogenetic effects induced by gamma-radiation in human blood lymphocytes in vitro. II. the results of cytogenetic study

The yield of chromosome aberrations induced by gamma-radiation of 60Co in human blood lymphocytes in vitro at low doses (30 divided by 600 mGy) and low dose rates (0.70, 5.05, 59.2 mGy/min) was investigated. It was found that the observed level of chromosomal aberrations induced by gamma-irradiation was unaffected by the value of the dose rate when using constant dose rate and obtaining different doses by altering the exposure time. However, a relatively enhanced level of chromatid aberrations was found at 5.05 and 59.2 mGy/min dose rates in the dose range less than 250 mGy. We have found that the observed level of the sum of chromosomal aberrations induced by gamma-irradiation at doses less than 250 mGy and a dose rate of 59.2 mGy/min was essentially larger compared with the level extrapolated from high doses (above 300 mGy) using a linear-quadratic dose curve. This complied with our previous finding in 1976, 1977 when the enhanced level of dicentrics was only found at a high dose rate approximately 500 mGy/min. Such a non-linear cytogenetic effect does not manifest itself statistically significantly at dose rates of 0.70 and 5.05 mGy/min for the sum of chromosomal aberrations and does not manifest itself at all for dicentrics at all the examined dose rates.     

Induction of chromosomal aberrations and SCE by camptothecin, an inhibitor of mammalian topoisomerase I

The induction of chromosomal aberrations and sister-chromatid exchanges (SCE) was studied in human lymphocyte cultures treated with camptothecin (CM), an inhibitor of mammalian topoisomerase I. While no chromosome-type aberrations were found in G1-treated cells, instead there was a dose-dependent induction of chromatid-type aberrations. These types of chromosomal alteration were not induced during the treatment itself but during the S phase, as CM is not efficiently removed with the normal washing procedure after treatment.     

Induction of sister chromatid exchanges and chromosome aberrations in cho cells arrested in the cell cycle by arginine deprivation

Summary Sister chromatid exchanges (SCE) and chromosome aberrations were induced in nondividing CHO cells that had been arrested in their cell cycle by deprivation of the essential amino acid arginine. Cells arrested in arginine-deficient medium (ADM) were treated with one of the mutagenic agents N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) or mitomycin C (MMC) and refed with complete medium; the recovering cell population was sampled at various intervals thereafter and mitotic cells analyzed for the presence of chromosome aberrations and SCE. Both chemicals were observed to cause delays in the cell cycle of recovering cells and to induce, chromosome aberrations and SCE at low doses. We have described the variation in the incidence of chromosome aberrations and SCE with respect to sampling time and the number of cell cycles traversed. When ADM-arrested CHO cells were treated with three mutagens at various intervals either before or after release from ADM, it was observed that: (a) UV light induced the greatest number of SCE when applied to cells undergoing DNA synthesis, and SCE yeilds induced by this agent could be reduced by postirradiation incubation in ADM; (b) MNNG induced fewer SCE when applied to cells undergoing DNA synthesis, and SCE yields induced by this agent could not be reduced by posttreatment incubation in ADM for 24 hr. (c) MMC induced the same level irrespective of the time of exposure, and SCE yields induced by this agent could not be reduced by posttreatment incubation in ADM for 24 hr. This work was supported by grants from the British Columbia Foundation for Non-Animal Research (to W. D. M.), and the National Cancer Institute of Canada and the National Research Council of Canada (to H. F. S.). Professor H. F. Stich is a Research Associate of the NCI.     

Biomonitoring of genotoxic exposure among stainless steel welders.

A biosurvey in the Danish metal industry measured the genotoxic exposure from stainless steel welding. The study comprised measurements of chromosomal aberrations (CA), sister-chromatid exchanges (SCE), unscheduled DNA synthesis (UDS) in peripheral lymphocytes and serum immunoglobulin G. Environmental monitoring of welding fumes and selected metal oxides, biomonitoring of chromium and nickel in serum and urine and mutagenic activity in urine, and evaluation of semen quality were also done. Manual metal arc (MMA) welding and tungsten inert gas (TIG) welding were the dominant welding processes. A higher frequency of chromosomal aberrations, classified as translocations, double minutes, exchanges and rings, was observed in stainless steel welders than in non-welders. SCE was lower in welders working with both MMA and TIG welding than in reference persons. N-Acetoxy-N-acetylaminofluorene (NA-AAF)-induced UDS was lower in 23 never-smoking welders than in 19 unexposed never-smokers. Smoking was a confounding factor resulting in significantly higher CA, SCE, NA-AAF binding to DNA and mutagenic activity in urine. Age was also a confounder: CA, SCE, NA-AAF binding to DNA and UDS increased significantly with age. No significant correlation between SCE and CA or between CA and UDS was found. UDS decreased significantly with increasing lymphocyte count and a higher lymphocyte count was seen in MMA welders than in reference persons and in smokers than in non-smokers. Differences in the composition among lymphocytes in exposed persons compared with non-exposed are suggested. MMA welding gave the highest exposure to chromium, an increased number of chromosomal aberrations and a decrease in SCE when compared with TIG welding. Consequently improvements in the occupational practice of stainless steel welding with MMA is recommended.     

Cytogenetic damage in workers exposed to ethylene oxide

Sister-chromatid exchanges (SECs) and chromosomal aberrations (CAs) were detected in the peripheral lymphocytes of 41 sanitary workers exposed to ethylene oxide (EO) in the sterilizing units of 8 hospitals in the Venice Region. The first group (19 workers) was exposed to 10.7 +/- 4.9 ppm EO, expressed as the time-weighted average concentration for an 8-h working day (TWA/8 h conc.), and the second group (22 workers) to 0.35 +/- 0.12 ppm. Each exposed worker was paired with a control of similar age and smoking habits. A highly significant (P less than 0.001) increase in the mean frequency of SCEs was found in the higher exposure group, 14 (74%) exposed subjects having significantly increased levels of SCEs compared to their matched controls. In the lower exposure group, the increase in mean frequency of SCEs was lower, though still significant (P less than 0.05): 7 (33%) exposed subjects had higher and 1 (5%) had a lower SCE level than the matched controls. From the first group, 10 subjects, 7 of whom had increased SCE levels, were reanalysed 12-18 months after their exposure had been lowered or interrupted: in only 2 of them the SCE level was significantly decreased. A statistically significant correlation between SCE frequency and level of EO exposure (TWA/8 h conc.), as well as a multiple correlation between SCE level and EO exposure, smoking and age were found. However, no interaction could be detected between EO exposure and smoking in the induction of SCEs. In controls, SCE frequency was correlated with smoking and age. In the higher exposure group, the number of both chromatid- and chromosome-type aberrations, independent of gaps, was significantly increased, whereas in the lower exposure group only the frequency of chromosome-type aberrations, excluding gaps, was statistically higher than in controls. The level of CAs remained to a great extent unchanged in the 10 subjects re-examined at a later stage after lowering or halting exposure. Taking the group as a whole, the frequency of cells with total CAs was found to be weakly (P = 0.05) correlated with EO exposure, and was not correlated with smoking, age or SCE frequency.