Enhanced cytogenetic detection of previous in vivo exposure to mutagens in human lymphocytes after treatment with inhibitors of DNA synthesis and DNA repair in vitro.

To increase the sensitivity of cytogenetic surveillance of exposure to mutagens in the peripheral lymphocyte assay, structural chromosome aberrations (CA) were studied after inhibition of DNA synthesis and DNA repair with hydroxyurea and caffeine in culture 3 h prior to harvesting. CA and sister-chromatid exchanges (SCE) from conventional cultures from the same subjects were used for comparison. Smoking was used as exposure parameter. Thirty-two smokers and 35 nonsmokers were studied. In the inhibited cultures a significantly higher number of aberrations was found in lymphocytes from smokers than nonsmokers: chromatid breaks (20.4 vs. 11.8, p = 0.0002), chromosome breaks (4.5 vs. 1.7, p = 0.0003), and the number of cells with aberrations (18.9 vs. 12.4, p = 0.0001), when 50 cells per subject were analyzed. In conventional cultures no increase in gaps, chromatid and chromosome breaks or number of cells with aberrations was found in smokers when 100 cells from each subject were studied. Smokers showed an increased number of SCE (6.8 vs. nonsmokers 5.9, p = 0.02). A significant positive linear correlation (r = 0.39, p = 0.01) was seen between SCE and the number of cells with chromatid breaks from inhibited cultures. The present results indicate that adding hydroxyurea and caffeine to lymphocyte cultures for the last 3 h prior to harvesting may enhance the detection of cytogenetic damage from previous in vivo exposure to mutagens.     

Chromosomal Aberrations (CA), Sister Chromatid Exchanges (SCE), and High-Frequency Cells (HFC) Frequencies in Peripheral Blood Lymphocytes of Tunisian Gasoline Truck Loaders

Gasoline constitutes a mixture of chemicals that contain well-known genotoxicants. Thus, chronic occupational exposure to gasoline may be considered to possess genotoxic risk. In this study, the frequencies of total chromosomal aberrations (TCA), aberrant cells (Ab.c.), sister chromatid exchanges (SCE), high-frequency cells (HFC), and high-frequency cell individual (HFI) were investigated in peripheral blood lymphocytes from 17 gasoline-exposed workers (10 smokers and 7 non-smokers) and 22 unexposed reference subjects (12 smokers and 10 non-smokers). The exposed subjects were gasoline truck loaders at a gasoline company from Tunis City, north of Tunisia. The results indicate multiple CA, such as dicentrics (DIC), chromatid breaks (SB), and chromosome breaks (DB). A significant difference was observed in TCA and Ab.c. frequencies between exposed and unexposed groups (p < 0.01). A significant difference was found in frequencies of SCE (p < 0.01) and HFI (p < 0.05) between exposed and unexposed groups. SCE and TCA frequencies of smokers were found to be significantly higher than those of non-smokers in both groups. There was an interaction between gasoline exposure and smoking habit for TCA (p = 0.020), but not for SCE. Our findings indicate that gasoline truck loaders were under risk of significant cytogenetic damage that was enhanced by their smoking habit.     

Chromosomal aberrations in lymphocytes of employees in transformer and generator production exposed to electromagnetic fields and mineral oil

The objective was to study the risk of cytogenetic damage among high voltage laboratory workers exposed to electromagnetic fields and mineral oil. This is a cross sectional study of 24 exposed and 24 matched controls in a Norwegian transformer factory. The exposure group included employees in the high voltage laboratory and in the generator soldering department. Electric and magnetic fields and oil mist and vapor were measured. Blood samples were analyzed for chromosomal aberrations in cultured lymphocytes. In addition to conventional cultures, the lymphocytes were also treated with hydroxyurea and caffeine. This procedure inhibits DNA synthesis and repair in vitro, revealing in vivo genotoxic lesions that are repaired during conventional culturing. In conventional cultures, the exposure group and the controls showed similar values for all cytogenetic parameters. In the DNA synthesis- and repair-inhibited cultures, generator welders showed no differences compared to controls. Among high voltage laboratory testers, compared to the controls, the median number of chromatid breaks was doubled (5 vs. 2.5 per 50 cells; P<0.05) the median number of chromosome breaks was 2 vs. 0.5 (P>0.05) and the median number of aberrant cells was 5 vs. 3.5 (P<0.05). Further analysis of the inhibited culture data from this and a previous study indicated that years of exposure and smoking increase the risk of aberrations. We conclude that there was no increase in cytogenetic damage among exposed workers compared to controls in the conventional lymphocyte assay. In inhibited cultures, however, there were indications that electromagnetic fields in combination with mineral oil exposure may produce chromosomal aberrations.     

Effects of G2 treatments with inhibitors of DNA synthesis and repair on chromosome damage induced by X-rays and chemical clastogens in root tips of Vicia faba. Comparison with corresponding effects in cultured human lymphocytes

The frequencies of chromatid aberrations produced in roots of Vicia faba by clastogenic (chromosome-damaging) agents were strongly enhanced by exposing the root-tip cells to inhibitors of DNA synthesis during the G2 phase. Chromosome damage produced by both S-dependent (maleic hydrazide, methyl methanesulfonate, thio-TEPA) and S-independent (X-rays, streptonigrin) mechanisms was enhanced by the inhibitor treatments. The types of aberrations affected by the inhibitors were mainly chromatid gaps and breaks and isochromatid breaks of the non-union type. Most effective among the inhibitors tested were hydroxyurea (HU) and 5-fluorodeoxyuridine (FdUrd). Post-treatments with caffeine were effective in enhancing clastogen-induced chromosome damage when given during the S phase. All types of aberrations, exchanges as well as breaks, were enhanced by the post-treatments. When given during the G2 phase, caffeine enhanced only the frequency of chromatid aberrations produced by X-rays. The enhancement was slight and obtained only when the cells were irradiated in the G2 phase and immediately post-treated with caffeine. Clastogen-treated cultures of human lymphocytes responded to post-treatments with inhibitors of DNA synthesis in very much the same way as clastogen-treated root-tip cells of Vicia faba. Thus, the frequencies of chromatid gaps and breaks and isochromatid breaks of the non-union type were strongly enhanced by exposing clastogen-treated lymphocytes to inhibitors of DNA synthesis during the G2 phase. The efficiency of the inhibitors, however, varied considerably in the two materials. On the whole, the number of inhibitors capable of enhancing induced chromosome damage was much larger in lymphocytes than in bean root tips. Only HU was equally effective in both materials. The most striking difference between the two materials was found when caffeine was given as a post-treatment. Thus, in human lymphocytes the frequencies of chromatid aberrations induced by most clastogenic agents were strongly enhanced when caffeine was given during the G2 phase, but little affected by post-treatments with caffeine during the S phase.     

In vivo and in vitro ethylene oxide exposure of human lymphocytes assessed by chemical stimulation of unscheduled DNA synthesis

Factory workers exposed to ethylene oxide (EO), 0.5–1.0 ppm in factory air, together with matched controls from the same factory, were examined for evidence of toxic exposure by measurement of unscheduled DNA synthesis (UDS) induced by N-acetoxy-2-acetylaminofluorene (NA-AAF) and of chromosome aberrations in peripheral lymphocytes.The total chromatid gaps plus breaks were significantly elevated and NA-AAF-induced UDS was significantly reduced in the EO-exposed group as compared with the unexposed control group. The NA-AAF-induced UDS values negatively correlated to the duration (yr) of EO exposure (r = ?0.45, p < 0.02) and the number of chromosome breaks (r = ?0.61, p < 0.05), indicating an inhibition in vivo of DNA-repair capacity by EO. These data were verified in vitro by biochemical and autoradiographic studies of EO-induced UDS in human blood cells. Above 2 mM EO, UDS was inhibited in lymphocytes whether they were cultured for 24 or 122 h after alkylation with EO. Even at the subtoxic EO dose of 0.1 mM, lymphocytes were sensitized to additional exposures of NA-AAF, so that cytotoxicity was increased to 40% compared with 5% for the controls even though UDS was unaffected.It is concluded that EO was toxic to lymphocytes, even when they were sensitized at non-toxic EO doses to the cytotoxic action of other mutagens (e.g. NA-AAF), and the cells that did survive above 2 mM EO were inhibited in their DNA-repair capacity as judged by reduced UDS.     

Effects of caffeine on chromosome aberrations and sister-chromatid exchanges induced by mitomycin C in BrdU-labeled human chromosomes.

The BrdU-Hoechst staining technique has been used in analyzing the effect of caffeine (CAF) on chromosome aberrations and sister-chromatid exchanges (SCEs) induced by mitomycin C (MC). CAF increased the frequency of SCE in MC-treated chromosomes in all specimens. The combination of MC and CAF caused a remarkable increase in all types of chromosome aberrations, but the most startling effect was the appearance of many cells with multiple aberrations (shattered chromosomes). The BrdU-Hoechst technique showed that the shattered chromosomes did not appear in cells that had replicated only once, but did occur in cells which replicated twice in the presence of MC and CAF. The large majority of chromatid breaks observed did not involve areas common to SCE; and the SCE frequency significantly increased in spite of the existence of multiple breaks. This indicates that very few of the breaks are incomplete exchanges and that the mechanism for formation of SCE might be different from that of chromosome breaks. In another experiment, monofunctional-MC (M-MC) had a small effect on SCE rates, though it induced shattered chromosomes with CAF post-treatment. Possible differences in the mechanisms leading to SCE and chromosome breaks are discussed.     

Effects of caffeine-induced defective DNA replication on SCE and chromosome aberrations produced by alkylating agents

The effect of caffeine (CAF) pretreatment (during the first cell cycle) on the frequency of sister-chromatid exchanges (SCE) and chromosome aberrations induced by bifunctional(MC)- and monofunctional(M-MC)-mitomycin C, 4-nitroquinoline N-oxide (4NQO) and ethyl methanesulphonate (EMS) were examined by using a BrdU—Hoechst staining technique. When CAF was added to the cultures during the first cell cycle in the presence of BrdU and then the cultures treated with MC, M-MC, 4NQO or EMS during the second cell cycle, the effect of the CAF was synergistic, i.e., the SCE level achieved was much higher than that expected from a simple additive effect of the agents and CAF. These results do not support the concept that the process of SCE is a manifestation of CAF-sensitive post-replication repair of DNA damage (single-strand exchanges), but, instead, point to exchanges between the double-strands of the DNA duplex present in each chromatid. CAF at certain concentrations is known to significantly slow down the rate of DNA-chain growth, but not appreciably induce strand breaks. Inasmuch as CAF alone induced only a small increase in SCE rates, possible mechanisms which may induce SCE are not only related to the slowing down of the rate of DNA-chain growth, but may also involve breaks in the template strand permitting double-strand exchanges to occur. The mechanisms responsible for chemically induced SCE are also discussed.     

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.     

Chromosome aberrations and response to γ-ray challenge in lymphocytes of workers exposed to 1,3-butadiene

An integrated population monitoring study was initiated to investigate whether occupational exposure to current low levels of butadiene is mutagenic to workers. Ten exposed workers (mean production area concentration of 3.5 ppm) and 10 matched plant controls(mean exposure to 0.03 ppm) were selected and blood samples were collected for our study. The standard cytogenetic assay was used to determine chromosome aberration frequencies. In addition, a challenge assay was used to determine response to γ-rays as an indication of DNA repair deficiencies. In the latter assay, cells were exposed to γ-rays at the G1 phase of the cell cycle in vitro and the frequencies of chromosome aberrations in the first post-irradiation metaphase cells were quantitated. Based on results of the cytogenetic assay, the exposed group had a higher frequency of cells with chromosome aberrations and higher chromatid breaks per 100 cells compared with the control. However, the difference was not significant (p > 0.1). With the challenge assay, the exposed group had a higher frequency of aberrant cells (p < 0.04), chromatid breaks (p < 0.05), deletions (p < 0.07), and dicentrics (p < 0.02) than the controls. In addition, the dicentric frequencies from workers were significantly correlated with the presence of a butadiene metabolite [1,2-dihydroxy-4-(N-acetyl-cysteinyl-S)butane] in urine with a correlation of coefficient of 0.6 (p < 0.01). Two outliers were identified and our interpretation of their responses will be discussed. This study indicates that the workers had exposure-induced mutagenic effects. Together with the observation of gene mutation in a subset of the present population, this study indicates that the current occupational exposure to butadiene may not be safe to workers.     

Effects of alkylating agents on lymphocytes from controls and from patients with Fanconi's anemia

Summary The frequency of sister chromatid exchanges (SCE) and chromosome aberrations and the dynamics of cell division in peripheral blood lymphocytes of four patients with Fanconi's anemia were studied after in vitro exposure to alkylating agents TEPA and mitomycin.SCE frequency was significantly increased even after very low doses of mutagens, while chromosome aberrations were significantly increased only after high doses (0.160 g/ml mitomycin and 10^-5 M TEPA). The responses of Fanconi's anemia cells and control cells did not differ significantly. The increased frequency of both SCE and chromosome aberrations was accompanied by gradual delay of cell division, which was most conspicuous in cells from patients with Fanconi's anemia.     

Enhanced assays detect increased chromosome damage and sister-chromatid exchanges in heroin addicts

To refine previous studies of chromosome damage (CD) and sister-chromatid exchanges (SCE) in heroin addicts, we applied new methods developed in our laboratory to enhance detection of the cytogenetic effects of low-level radiation exposure in hospital workers. For CD analysis, we applied our thymidine-fluorodeoxyuridine-caffeine (TFC) enhancement procedure in which cells at setup receive 1 x 10(-7) M fluorodeoxyuridine to inhibit thymidylate synthetase and 4 X 10(-5) M thymidine to satisfy the induced requirement, and then in G2 receive 2.2 mM caffeine to modulate DNA repair. For SCE enhancement, caffeine treatment was initiated in G1 at 19 h before harvest. Using both standard and enhanced procedures for CD and SCE analysis, blood samples were evaluated from 20 street heroin addicts and 22 controls. Standard 2-day CD and 3-day SCE assays showed small, insignificant genotoxic increases in addicts while the enhanced CD and SCE assays showed highly significant increases. Most CD events were in the form of chromatid and chromosome breaks. There were no rings and only a few dicentrics were observed in the TFC-enhanced cultures. Although quadriradials are rare, 10 were found in addict TFC-cultures and 3 in control TFC-cultures. With the standard CD assay, the mean number of chromosome breaks per 100 cells was 0.727 for controls and 1.056 for addicts (not significant). With the TFC-enhanced assay, the same measure showed 1.483 chromosome breaks for controls and 5.143 for addicts (highly significant, ANOVA: p less than 0.0001). A highly significant difference was also observed for chromatid-type damage with the TFC-enhanced assay (chromatid breaks per 100 cells: 16.793 for controls; 48.191 for addicts). The SCE data also showed significant differences with the enhanced assay. Scoring 25 cells/condition, standard SCE cultures showed 10.892 SCE/cell for controls and 11.732 SCE/cell for addicts (not significant). With CAF enhancement there were 13.08 SCE/cell for controls and 17.05 SCE/cell for addicts (ANOVA: p less than 0.008). These findings indicate that detection of CD and SCE effects can be significantly enhanced by the use of these new procedures. The finding of greatly increased chromatid damage in the addicts with the TFC procedure suggests that at least part of the CD detected occurred in vitro and is not a product of prior in vivo damage. Therefore exposure to this drug and perhaps other environmental agents may not only leave a residue of DNA or chromosome damage but may also induce a sensitivity to further genotoxic damage that is revealed by using the enhanced procedures.     

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.     

Increased sister chromatid exchange in bone marrow and blood cells from Bloom's syndrome.

Bone-marrow cells from a patient with Bloom's syndrome cultured for 48 h in the presence of BudR exhibited a striking increase in the number of sister chromatid exchanges (SCEs) in comparison to that in the marrow cells of a patient with treated polycythemia vera (PV). Thus, it appears that an increased incidence of SCE in Bloom's syndrome occurs in various differentiated types of cells, not just blood lymphocytes, and constitutes the syndrome's most characteristic cytogenetic feature. In contrast, the incidence of SCE was not increased in marrow cells and lymphocytes of the particular PV patient studied here, whose cells did exhibit increased numbers of chromatid and chromosome gaps and breaks, presumably as result of the patient's earlier treatment. An increased frequency of SCE was demonstrated in Bloom's syndrome lymphocytes using both a technique based on BudR incorporation and one based on labeling with tritated deoxycytidine. This observation constitutes evidence against the increase of SCE being due to an unusual reaction to BudR. By conventional cytogenetic techniques, chromosome instability, including chromatid and chromosome breaks, but no homologous chromatid interchanges were also recognized in Bloom's syndrome bone-marrow cells incubated in vitro (without BudR) for either 1.k or 16 h. This observation points to the existence of chromosome instability in vivo.     

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.     

Cytogenetic monitoring of a group of Italian floriculturists: no evidence of DNA damage related to pesticide exposure

The induction of sister chromatid exchanges (SCE), structural chromosome aberrations (CA) or micronuclei (MN) was investigated in peripheral lymphocytes of a group of Italian floriculturists exposed to a mixture of pesticides. No statistically significant difference in the frequencies of cytogenetic damage was detected between exposed and control subjects. Assessment of the effect of confounding factors indicated that smoking affected both SCE and CA frequencies. Multiple regression analysis showed that in heavy smokers (≥ 20 cigarettes/day), SCE and CA levels increased significantly by 17% and 54%, respectively, as compared to non-smokers.     

The relation between chemically induced sister-chromatid exchanges and chromatid breakage.

Studies of classical chromosome aberrations and sister-chromatid exchanges (SCES) suggest independent mechanisms for the two events despite some common features. Examination of chromosome breakage caused by X-rays, visible light, and viruses has shown that few chromatid breaks are accompanied by SCEs at the sites of breaks. No similar observations were available for chemically induced breaks, but it has been reported that rat chromosomes exposed to dimethylbenzanthracene (DMBA) contained a preponderance of both aberrations and SCEs in certain specific regions, implicating a common process in their formation. These conclusions were drawn from a comparison of breaks induced in vivo with SCEs induced in vitro. However, we used 7 chemical mutagens to induce both chromatid breaks and SCEs in "harlequin" chromosomes of cultured rat and Chinese hamster ovary (CHO) cells and found that 25% of the 914 breaks scored were associated with SCEs. The proportion of breaks accompanied by SCEs is related to the overall SCE frequency and falls into the range predicted on the basis that breaks and SCEs occur independently. The reported association between sites for SCEs and aberrations also reflects secondary factors, such as induction of SCEs and aberrations during DNA synthesis in late replicating regions of the chromosomes.     

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.     

Chromosomal aberrations and sister-chromatid exchanges induced by N-nitroso-2-acetylaminofluorene and their modifications by arsenite and selenite in Chinese hamster ovary cells.

The frequencies of chromosomal aberrations (CA) and sister-chromatid exchanges (SCE) in Chinese hamster cells were significantly increased by the direct-acting mutagen N-nitroso-2-acetylaminofluorene (N-NO-AAF) at the concentration of 0.1 mM. N-NO-AAF was prepared by nitrosation of the protohepatocarcinogen 2-acetylaminofluorene. The induced CA, which included chromatid breaks, chromatid exchanges, chromosome breaks, and chromosome ring formation were significantly potentiated by the presence of sodium arsenite (10 microM), but not by hydroxyurea (20 mM) or cytosine arabinoside (25 microM). On the other hand, the clastogenic effect of N-NO-AAF was effectively inhibited by sodium selenite (100 microM). Arsenite (10 microM) was shown to be moderately active in CA induction which was partially blocked by the presence of selenite (10 nM). N-Nitroso compounds such as N-nitroso-N-methylurea, N-nitroso-N-ethylurea and N-methyl-N'-nitro-N-nitrosoguanidine were equally or more active in the induction of CA and SCE in CHO cells when compared with N-NO-AAF. The cell cycle was significantly delayed by the intervention of N-NO-AAF.     

Cytogenetic study of <Emphasis Type="Italic">Ascaris</Emphasis> trypsin inhibitor in cultured human lymphocytes with metabolic activation

The trypsin inhibitor (ATI) isolated from gastrointestinal nematode Ascaris suum was tested in vitro for induction of chromosome aberrations and sister chromatid exchanges (SCE). Genotoxicity assessment of purified ATI was carried out on metaphase plates received from peripheral blood lymphocyte macroculture (48 h test of structural chromosome aberrations and 72 h test of SCE) with exogenous metabolic activation. ATI was tested in dose of 25, 50 and 100 μg per ml of culture. Kinetics of cell divisions were determined by the replication index (RI). The mitotic index (MI) was expressed as a number of metaphases per 1000 nuclei analysed. Analysis of chromosome aberrations showed that higher doses of ATI (50 and 100 μg/ml) significantly increased the frequency of chromosome aberrations (mainly of chromatid gaps and breaks) compared to the negative control. All concentrations of ATI caused a statistically significant reduction in the MI and RI. In comparison with the negative control, a significant increase in the SCE frequency was observed in all applied doses of ATI. Thus, in the presence of S9 activation, the Ascaris trypsin inhibitor showed potential clastogenic activity and inhibition of the dynamics of lymphocyte divisions.     

脉冲电磁场对家猪淋巴细胞的细胞遗传学效应

以家猪外周血淋巴细胞为材料,研究了脉冲电磁场（pulsing electromagnetic fields,简称PEMFS)树细胞的遗传学效应,实验发现,100和200kHz的PEMFs对家猪的淋巴细胞照射培养12,24,48h后,染色体畸变（包括非整倍体,染色体断裂等）频率明显高于对照组（P＜0．05）,其中,56％的染色体或染色单体断裂和42％的间隙发生在家猪常见染色体脆性位点部位,同时, 经100kHz和200kHz的PEMFs照射48h后,淋巴细胞姐妹染色单体交换（SCE）频率也明显高于对照组（P＜0．05）,实验结果表明,PEMFS能诱导DNA损伤和染色体畸变。