Differences in the induction of SCEs between human whole blood cultures and purified lymphocyte cultures and the effect of an S9 mix

Studies for SCE induction are frequently performed on human blood cultures. Either whole blood cultures (WBC) or purified lymphocyte cultures (PLC) are employed. However, it has been shown that fundamental differences with respect to metabolic activity exist between these two systems. In order to further characterize the whole blood culture and the purified lymphocyte culture, differently acting substances were studied comparatively with and without an Aroclor-1254-induced S9 mix. Treatment with ethyl methanesulfonate (EMS), a direct mutagen, produced distinct SCE induction in both systems. Cyclophosphamide (CP) and benzo[a]pyrene (BP), two indirect mutagens, also led to a significant increase of SCEs both in WBC and PLC without S9 mix. Only with CP was this effect more pronounced after addition of S9 mix. Sodium selenite (Na2SeO3), which induced SCEs in WBC, did not show this effect in the PLC. After S9 mix was added to purified lymphocytes, an increase of SCEs by sodium selenite was observed as in WBC. H2O2, a radical former, led to SCE induction in purified lymphocytes but not in the whole blood culture. By adding S9 mix, a distinct reduction of the SCEs induced by H2O2 was established. These results show that human lymphocytes can metabolize indirect mutagens and that it should be kept in mind when using S9 mix that, besides mixed-function oxygenases, it also contains enzymes which influence the SCE-inducing effects of substances.     

In vitro genotoxic perspective of Tamiflu

The aim of this study was to investigate the genotoxic and/or cytotoxic effects of Tamiflu, commercial form of the oseltamivir antiviral and most frequently prescribed for the treatment of influenza infections, on cultured human peripheral lymphocytes by using sister chromatid exchange (SCE), chromosomal aberration (CA), and cytokinesis-blocked micronucleus (CBMN) assays. Cells were treated with 0.5, 1, 2 μg/mL oseltamivir, the Tamiflu capsule ingredient, for 24 or 48 h in the absence or presence of an exogenous metabolic activation system (S9 mix). The test chemical did not demonstrate any genotoxic effect dose-dependently but it showed a weak cytotoxicity on cells in this study. On the other hand, some concentrations of Tamiflu (2 μg/mL without S9 mix for 48 h and 1 μg/mL with S9 mix) induced SCE and also decreased significantly the proliferation index (PI) (48 h period) and the nuclear division index (NDI) (24 h period) (P < 0.05) in the absence of S9 mix. Considering the results, Tamiflu did not induce significant increases of CA or micronucleated cells in vitro in cultured peripheral blood lymphocytes under the treatment conditions used but weak SCE induction was observed. On the other hand, the weak cytotoxic effects observed disappeared in the cultures treated in presence of the S9 mix.     

Induction of sister-chromatid exchanges in cultured human lymphocytes by Aldicarb, a carbamate pesticide

The aim of this work was to investigate the effects of Aldicarb on human lymphocytes in vitro in the presence of an exogenous metabolic activation system. This was done by means of an analysis of SCE and mitotic delay. CP was used to compare the chromosomal effects of Aldicarb with a known genotoxic agent. Our experiments showed that Aldicarb as well as CP induced a significant increase of SCE values in the absence of S9 mix. In vitro metabolic activation of both chemicals increased the SCE values. The addition of a metabolic system slightly decreased the successive mitotic progression of cells in culture.     

In vivo and in vitro promutagen activation by Vicia faba of thiocarbamate herbicides molinate and butylate to products inducing sister chromatid exchanges in human lymphocyte cultures

Molinate and butylate treatments for 4 h of Vicia faba root tip meristems, showed that both thiocarbamate herbicides increased significantly SCE frequency. Direct treatments of molinate and butylate on human lymphocytes applied 24 h after the beginning of culture did not induce SCE. When S10 extracts of the Vicia roots, treated for 4 h with molinate and butylate (in vivo activation) were added to lymphocytes (24 h after of the beginning of culture), SCE were induced in a concentration-response manner. The in vitro assays, in which molinate and butylate was added at 48 h lymphocyte cultures for 4 h, showed a negative response, however, in the treatment where the S10 metabolic mix was added the SCE frequencies were significantly different to the control, and the concentration-response relationship was not observed with molinate, but it was obtained with butylate. The results showed that both herbicides needed the V. faba metabolism to produce SCE in human lymphocyte culture.     

Human lymphocytes assay: cyclophosphamide metabolic activation by S9 system with low cytotoxicity

The general suitability of exposing human lymphocytes directly to prolonged contact with an Ames-type microsomal (S9) activation system has been examined, for testing the effect of the indirect chemical mutagen, cyclophosphamide (CPA), on induction of chromosomal aberrations. Direct exposure of lymphocytes to only S9 mix produced a decrease in the mitotic index within 30-60 min, whereafter it stabilized at acceptable values. Further toxic effects following treatment with different doses of CPA and S9 mix, for the longest times of exposure were due to production of clastogenic metabolites. On the basis of these results, the low cytotoxicity of S9 mix in our conditions allows extension of the application of the test to the study of metabolites which require prolonged contact with the target cells.     

Indirect mutagen assay in human lymphocyte in the presence of a metabolic activation system

Chromosome aberrations in cultured human lymphocytes were examined after exposures to various concentrations (from 1 X 10(-6) to 1 X 10(-3) mol X l-1) of cyclophosphamide (CP) in the presence or absence of a metabolic activation system (S9 mix). With metabolic activation, increases in the frequency of aberrant cells (AB. C.) produced by CP were significant and dose-dependent. At a concentration of 5 X 10(-4) mol X l-1, activated CP induced 29% AB. C. versus 6% AB. C. detected after exposures to CP without metabolic activation. The freshly prepared S9 mix did not virtually differ in its activation potency from the S9 mix stored for 3 weeks at -20 degrees C. CP preincubated for 100 min with S9 mix caused little or no increase in AB. C. frequency above the control level.     

Hypersensitive character of Bloom syndrome B-lymphoblastoid cell lines usable for sensitive carcinogen detection

Various carcinogens were tested with regard to the induction of sister-chromatid exchanges (SCEs) and chromosome aberrations using 3 types of Bloom syndrome (BS) B-lymphoblastoid cell lines (LCLs) (type I with normal frequency of SCEs and normal karyotype; type II with high frequency of SCEs and normal karyotype; type III with high frequency of SCEs and abnormal karyotypes) in the presence and absence of S9 mix. Three types of BS B-LCLs and normal cells showed different responses to the various carcinogens in the level of SCE induction. BS type I cells had the same SCE response as normal cells to carcinogens. Some carcinogens that require metabolic activation (S9 mix) had little effect on type II cells without S9 mix but had high SCE levels with S9 mix. BS type III cells were highly susceptible to both direct and indirect carcinogens with respect to high SCE increase without S9 mix (ca. 140 SCEs/cell), though some carcinogens produced SCEs rated in the medium (ca. 120 SCEs/cell) range, and had a high rate (more than 10%) of centromere spreading (CS), in addition to quadriradials. Therefore BS type III is a unique cell line which can be used to detect carcinogens.     

Genotoxic effects of estradiol-17beta on human lymphocyte chromosomes

The cytogenetic effect of a hormonal steroid, estradiol-17beta, was assessed in peripheral blood human lymphocyte culture. Sister chromatid exchanges (SCE) and chromosome aberrations (CA) were scored as genetic end points. Significant induction of CA was observed at 25 microg/ml and 50 microg/ml concentrations of estradiol-17beta in the absence of microsomal activation. The drug was effective in all treatments in the presence of rat liver S(9) microsomal fraction (S(9) mix) and exhibited increased frequency of chromosomal aberrations. The drug was effective in increasing the SCE frequency which was found to be maximum at the dose of 50 microg/ml concentration (i.e., 4.34+/-1.22) both with and without metabolic activation. It was found that estradiol-17beta itself and possibly its metabolites are potent mutagens beyond a particular dose in human lymphocytes.     

Induction of SCEs and DNA fragmentation in bovine peripheral lymphocytes by in vitro exposure to tolylfluanid-based fungicide

The potential for genotoxic and cytotoxic effects of tolylfluanid-based fungicide (50% active agent) was evaluated using sister chromatid exchange (SCE) and proliferation indices (PI) in cultured bovine peripheral lymphocytes. For the detection of possible genetic damage, DNA fragmentation assay was also applied. Bovine lymphocytes cultured for 72 h were treated with the fungicide at the final concentrations of 1.75, 3.5, 8.75, and 17.5 μg/mL for the last 24 and 48 h of culture without S9 metabolic activation, and during the last 2 h of culture with S9 metabolic activation. In the SCE assays no evidence for genotoxic activity of the fungicide was found in treatments of 24 h without and 2 h with S9. After the 24 h exposure to tolylfluanid, a weak decrease in the PI was observed. With the prolonged exposure time (48 h), dose dependence in the increase of SCE frequencies was observed. Moreover, after 48 h exposure slight fragmentation of DNA at the concentrations of 3.5 and 8.75 μg/mL was demonstrated. SCE quantification is the most widely used approach for the assessment of genotoxic/cytogenetic effects of chemical compounds. Positive results in the assay at 48 h exposure indicated a potential of the fungicide to increase frequency of chromosomal damage (replication injuries) that is the confirmation of early effect of exposure.     

Analysis of cytogenetic effect in human lymphocytes induced by metabolically activated 2-nitropropane

Chromosome analyses were carried out in human lymphocytes treated in vitro with 2-nitropropane (2-NP) in the presence and absence of the mammalian metabolic activation system, S9 mix. Without S9 mix, only the frequency of gaps was significantly increased at 80 mM 2-NP as compared to controls. With S9 mix, the incidences of gaps and chromatid-type aberrations were significantly increased at 60 mM and 80 mM. Sister-chromatid exchanges (SCE) have been induced at concentrations as low as 7.5 mM. The present findings demonstrate that in human lymphocytes, 2-NP requires metabolic activation to express clastogenicity and SCEs.     

Induction of sister-chromatid exchanges in human lymphocytes and Chinese hamster cells exposed to aflatoxin B1 and N-methyl-N-nitrosourea.

The effect of a 1-h exposure to aflatoxin B1 (AFB1) in inducing sister-chromatid exchange in Chinese hamster ovary (CHO) cells and human lymphocytes in the presence or absence of mixed function oxidase ("S9 mix") was compared. CHO cells were also exposed to a graded series of doses of N-methyl-N-nitrosourea, a powerful inducer of SCE whose action was independent of the presence or absence of S9 mix. CHO and human cells showed a close correlation in response to SCE induction by AFB1 and in both cell systems the additon of mixed function oxidases in the S9 mix resulted in a marked enhancement of action of AFB1.     

Chemical induction of sister-chromatid exchanges in human lymphocytes treated in G0 prior to stimulation by different mitogens and revealed 72 h later in second division cells

Frequencies of sister-chromatid exchanges (SCE) were determined in second-division metaphases of human lymphocytes, exposed for 1 h during the G0 phase to mitomycin C (MMC) alone or to cyclophosphamide (CP) in the presence of S9 mix. The cells were then cultured for 72 h in the presence of phytohemagglutinin (PHA), concanavalin A (Con A), Wistaria floribunda (WFA) or Lens culinaris (LcH-A) extracts. Large differences in mitotic indices (MI) and cell-cycle kinetics were observed among cells subjected to the various treatments. However, in the controls as well as in the cultures submitted to a G0 mutagenic exposure, the yield of SCE was not influenced by the mitogenic agent and was, therefore, independent of the proliferation properties of the cultured lymphocyte population.     

Induction of sister chromatid exchanges and chromosome aberrations in cultured mammalian cells treated with aminophenylnorharman formed by norharman with aniline

Aminophenylnorharman (APNH) is a newly identified mutagenic heterocyclic amine formed by coupling of norharman with aniline in the presence of S9 mix. Furthermore, mutagenic amino-3'-methylphenylnorharman (AMPNH) and aminophenylharman (APH) have been identified from a reaction mixture of norharman and o-toluidine and that of harman and aniline, respectively, with S9 mix. Among these three heterocyclic amines, APNH shows most potent mutagenic activity towards Salmonella typhimurium TA98 and YG1024 with S9 mix. In the present study, the induction of sister chromatid exchanges (SCEs) by APNH was examined in Chinese hamster lung (CHL) cells in vitro, comparing it to those of AMPNH and APH. On incubation with rat S9 for 6h, followed by a recovery culture period of 18h, a dose-dependent effect was found at concentrations between 0.00125 and 0.01 microg/ml for APNH and between 0.3125 and 5 microg/ml for AMPNH and APH. The approximate chemical concentrations leading to a three-fold of control SCE levels calculated from slopes of the linear regressions of induced SCEs were 0.005 for APNH, 0.51 for AMPNH and 1.7 microg/ml for APH. Because of the very strong SCE-causing ability of APNH, we further explored its genotoxicity by examining the induction of chromosome aberrations in CHL cells. A dose-dependent effect was found for chromosome aberrations at concentrations between 0.00125 and 0.04 microg/ml of APNH. The aberrations observed were primarily chromatid exchanges (cte) and breaks (ctb). In conclusion, the potency of SCE induction and clastogenic activity induced by APNH is stronger than Actinomycin D, Mitomycin C (MMC) or 1,8-dinitropyrene which are considered to be the potent clastogens in the literature. Further studies are needed for elucidating mechanisms of the genotoxic actions of these compounds and for evaluating their potential hazards to human health.     

The genotoxic and cytotoxic effects of ribavirin in rat bone marrow

The genotoxicity of the 2-furylethylene derivative 1-(5-bromofur-2-yl)-2-nitroethene (2-betaNF) has been evaluated in cultured human peripheral blood lymphocytes at concentrations ranging from 0.5 to 15microg/ml. The frequencies of micronuclei (MN) and sister-chromatid exchanges (SCEs) were used and scored as indicators of genetic damage. To asses the role of the metabolism mediated by the enzymes present in the S9 mix, over the possible genotoxic potential of the test agent, the cultures for MN and SCE demonstrations were treated for 3h in presence and in absence of rat liver microsomal fraction. The results indicate that, under the experimental conditions used, the test agent does not induce significant increases in the frequency of micronucleated cells, irrespective of the presence/absence of metabolic fraction. Nevertheless, a slight increase in the SCE frequency was observed in those cultures treated without the S9 mix; although this slight increase disappeared in the experiments carried out with the microsomal fraction. In addition, cytotoxic/cytostatic effects of (2-betaNF) were observed mainly in the cultures treated without the S9 fraction.     

The effectiveness of S9 and microsomal mix on activation of cyclophosphamide to induce genotoxicity in human lymphocytes

Comparative results are presented on the effectiveness of rat-liver S9 or microsomal mix (M mix) in activating cyclophosphamide (CP) and its ability to induce a clastogenic effect in human lymphocytes in vitro. Structural chromosome changes were analysed exclusively in 1st division (M1) metaphases post-exposure. A high genotoxic response was observed for both metabolizing systems used. With an exposure of 2 h to different concentrations of S9 or M mix, the highest aberration yields were always found for the highest protein content. For CP treatment times of 1, 2 or 4 h together with S9 mix (protein content 10 mg/ml) or M mix (4 mg/ml), the latter was more efficient. With both systems, a lower clastogenic effect of CP was found at 4 h exposure than at 1 h or 2 h. Only a weak cytotoxic effect, reflected mainly by the reduction in the percentage of 3rd cycle cells (M3), and measured in terms of the proportion of M1, M2 and M3 cells, was induced by both systems.     

The action of anticlastogens in human lymphocyte cultures and their modification by rat-liver S9 mix. II. Studies with vitamins C and E

The action of vitamins C (VC) and E (VE) on the clastogenic activity of trenimon (TR), cyclophosphamide (CP) and bleomycin (BM) was tested on cultures of human peripheral blood lymphocytes with and without addition of rat-liver S9 mix. In addition, the influence of both anticlastogens on the SCE-inducing activity of TR and CP was examined under the same conditions. A distinct dose-dependent anticlastogenic effect of VC was detected in the action of long-term treatment (24 h) with TR, if the vitamin was added to the cultures simultaneously with or before the clastogen. In the short-term tests (2 or 3 h clastogen treatment ending 23 h or 21 h before harvesting) simultaneous addition of both vitamins did reduce the chromosome-damaging action of TR whether S9 mix was present or absent. While VC also decreased the frequency of chromosome damage induced by S9-mix-activated CP, VE was inactive under the same conditions. Neither vitamin significantly affected the chromosome-breaking activity of BM if S9 mix was absent, but they increased the clastogenicity of BM metabolized by S9 mix. In contrast to their anticlastogenic efficacy neither of the vitamins displayed any significant anti-SCE effect, nor were they active in affecting the inhibition of cell proliferation caused by TR or CP.     

1,3-Butadiene and its epoxides induce sister-chromatid exchanges in human lymphocytes in vitro

Sister-chromatid exchanges (SCEs) were induced in human lymphocytes by 1,3-butadiene and its epoxides 3,4-epoxy-1-butene and 1,2:3,4-diepoxybutane. After a pulse treatment of 2 h, 1,3-butadiene produced a weak but reproducible increase in SCEs both with and without S9 mix. The response was similar in cultures of whole blood and of isolated lymphocytes. The 2 epoxide metabolites of butadiene, studied in whole-blood lymphocyte cultures without exogenous metabolic activation, were highly active SCE inducers. The lowest effective concentrations of butadiene, monoepoxybutene, and diepoxybutane were 2000 microM, 25 microM and 0.5 microM, respectively. A slight but dose-dependent increase in SCEs was also observed without an exogenous metabolic system after a 48-h treatment with 1,3-butadiene. Already the lowest concentration tested (500 microM) was effective. Again, the response was similar in cultures of whole blood and isolated lymphocytes, suggesting that the lymphocytes are capable of metabolically activating 1,3-butadiene.     

Genotoxic effects of chemicals in the single cell gel (SCG) test with human blood cells in relation to the induction of sister-chromatid exchanges (SCE)

In a comparative study, henzo[a]pyrene (BaP), cyclophosphamide (CP), N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) and tetrachloroethylene (PER) were tested for their ability to induce genotoxic effects in the single cell gel (SCG) test and the sister-chromatid exchange (SCE) test with human blood cells. MNNG as well as S9 mix activated BaP- and CP-induced DNA effects in both tests in a dose-dependent manner. While the range of concentrations which induced DNA migration or SCE was the same for MNNG and for Bap, much higher CP concentrations were necessary for a positive response in the SCG test than in the SCE test. PER was tested in the absence and in the presence of S9 mix and neither induced DNA migration nor increased SCE frequencies. In these experiments, a clear cytotoxic effect of PER was observed. To investigate a possible influence of DNA repair on the effects in the SCG test, cells were treated for 2 h and further incubated for 1 h after removal of the test substance. This procedure caused a clear decrease in induced DNA migration in experiments with Bap and CP, whereas no reduction was found with MNNG. This modified protocol did not lead to the detection of DNA effects after treatment with PER. The results indicate that the SCG test responds to various DNA lesions and does not seem to be sensitive to non-genotoxic cell killing. Its sensitivity obviously depends on the type(s) of induced DNA lesions and the effects can be modified by DNA repair processes in a complex manner. For the detection of genotoxic properties of chemicals with the in vitro SCG test, a single evaluation at the end of the exposure period seems to be sufficient.     

Structure/activity investigations in eight arylalkyltriazenes comparison of chemical stability,mode of decomposition,and SCE induction in Chinese hamster V79-E cells

A series of seven 1-aryl-3.3-dialkyltriazenes, including 1-phenyl-3.3-dimethyltriazene (DMPT), 1-phenyl-3.3-di-(trideuteromethyl)-triazene (DMPT-ds), 1-p-methylphenyl-3.3-dimethyltriazene (DMpMPT), 1-p-nitrophenyl-3.3-dimethyltriazene (DMpNPT), 1-phenyl-3.3-diethyltriazene (DEPT), 1-phenyl-3.3-di-n-propyltriazene (DnPrPT) and 1-phenyl-3.3-diisopropyltriazene (DiPrPT) and 1.3-diphenyl-3-methyltriazene (DPMT), was synthesized and characterized by UV/VIS, IR and ¹H-NMR spectroscopy. Chemical half-life was determined in phosphate buffer at 37° using UV/VIS spectroscopy. With the exception of DMpNPT, which was stable, the triazenes underwent pH-dependent hydrolytic decomposition (acid catalysis). By means of UV/VIS spectra, TLC and HPLC, phenol, aniline and secondary azocoupling products were identified after complete hydrolytic cleavage of the parent compounds. Pathways of spontaneous hydrolysis are proposed and discussed. Genotoxic activity of the triazenes was assayed by measurement of sister chromatid exchanges (SCE) in V79-E cells without and with rat liver S9 mix as an exogenous metabolizing system. In the direct SCE assay (without S9 mix), all triazenes except DMpNPT exerted a toxic action (cell cycle delay) in a narrow concentration range between no effect and overt cytotoxicity. This non-specific toxicity depended on the pH of the incubation system and was inversely proportional to chemical half-life. The toxicity of these agents is most likely due to the arenediazonium cation which is a relatively stable intermediate. In a sublethal concentration range most triazeness induced significant increases of SCE rates. These are interpreted as an indirect consequences of cytotoxicity. Upon metabolic activation, the compounds were genotoxic in a dose-dependent fashion. Their SCE-inducing capacity depended on the nature of the alkylating species generated, i.e., the alkyldiazonium cation, and on chemical stability. Surprisingly, no deuterium isotope effect was observed in DMPT-d₆. The order of genotoxic activity among the aryldialkyltriazenes was DMpNPT DMPT = DMPT- ds > DMpMPT DEPT > DnPrPT DiPrPT. DMPT was a marginal SCE inducer but very toxic upon metabolic activation. As monooxygenation of DPMT, like spontaneous hydrolysis, should generate a phenyldiazonium cation, the results suggest that arylation of DNA causes a very low SCE induction, if any.Abbreviations BUdR 5-bromodeoxyuridine - CP cyclophosphamide - DEPT 1-phenyl-3.3-diethyltriazene - DiPrPT 1-phenyl-3.3-diisopropyltriazene - DMPT 1-phenyl-3.3-dimethyltriazene - DMPT-d₆ 1-phenyl-3.3-di(trideuteromethyl)triazene - DMpMPT 1-p-methylphenyl-3.3-dimethyltriazene - DMpNPT 1-p-nitrophenyl-3.3-dimethyltriazene - DnPrPT 1-phenyl-3.3-di-n-propyltriazene - DPMT 1.3-diphenyl-3-methyltriazene - SCE sister chromatid exchange     

Effect of tumor promoter 12-O-tetradecanoyl-phorbol 13-acetate on induction of sister-chromatid exchanges in Chinese hamster V79 cells treated with mutagens

The effect of a tumor promoter, 12-O-tetradecanoyl-phorbol 13-acetate (TPA) alone and in combination with mitomycin C (MMC) or cyclophosphamide (CPP) on the induction of sister-chromatid exchanges (SCE) in Chinese hamster V79 cells was investigated. TPA alone at various doses and durations caused no increase of SCE frequency. MMC either at the dose of 0.03 or 0.003 μg/ml alone or in combination with TPA (2 μg/ml) all caused a significant increase of SCE frequencies. There was no difference in SCE frequencies between the cultures treated with MMC alone at 0.03 μg/ml and those treated with MMC plus TPA. However, cultures treated with MMC at 0.003 μg/ml plus TPA had significantly and consistently higher SCE frequencies than those treated with MMC alone at all durations. Treatment of CPP at 1 μg/ml activated by S9 mix caused significant increase of SCE frequencies. Surprisingly, the cultures treated with CPP, S9 mix plus TPA (2 μg/ml) caused a drastic reduction of SCE frequencies as compared to those treated with CPP and S9 mix only at all durations. These results indicate that TPA alone had no effect on SCE in V79 cells. TPA enhanced the SCE induction in V79 cells treated with MMC at a low dose, i.e. 0.003 μg/ml, but it inhibited SCE induction in cultures treated with the indirect mutagen CPP. Thus, TPA has no direct effect on genetic materials but it may indirectly alter the effects of a mutagen.