我国生殖毒理学研究进展

我国生殖毒理学研究在 60年代以评价化学物致畸效应为主 ;70年代有关刊物详尽描述了致畸和繁殖试验的方法 ;80年代制定的法规将喂养繁殖试验、喂养致畸试验和传统致畸试验列为必做试验 ,并在致突变试验项目中列出睾丸生殖细胞染色体畸变分析和精子畸形试验 ;90年代的研究内容已由单纯致畸研究扩大至男 (雄 )性和女 (雌 )性生殖和发育毒理 ,在研究手段上由整体动物实验扩大至全胚胎培养、组织培养、细胞培养 ,并运用了分子生物学理论和技术。现从生殖毒性测试的发展、观测生殖毒性指标的进展、化学物生殖毒性研究进展等几个角度对我国生殖毒理领域的研究作一概述 ,并提出今后的研究动向将会以生殖细胞遗传毒性研究、拓宽研究对象以及开展环境内分泌干扰物的研究为主     

DNA alkylation lesions and their repair in human cells: modification of the comet assay with 3-methyladenine DNA glycosylase (AlkD)

3-Methyladenine DNA glycosylase (AlkD) belongs to a new family of DNA glycosylases; it initiates repair of cytotoxic and promutagenic alkylated bases (its main substrates being 3-methyladenine and 7-methylguanine). The modification of the comet assay (single cell gel electrophoresis) using AlkD enzyme thus allows assessment of specific DNA alkylation lesions. The resulting baseless sugars are alkali-labile, and under the conditions of the alkaline comet assay they appear as DNA strand breaks. The alkylating agent methyl methanesulfonate (MMS) was used to induce alkylation lesions and to optimize conditions for the modified comet assay method with AlkD on human lymphoblastoid (TK6) cells. We also studied cellular and in vitro DNA repair of alkylated bases in DNA in TK6 cells after treatment with MMS. Results from cellular repair indicate that 50% of DNA alkylation is repaired in the first 60 min. The in vitro repair assay shows that while AlkD recognises most alkylation lesions after 60 min, a cell extract from TK6 cells recognises most of the MMS-induced DNA adducts already in the first 15 min of incubation, with maximum detection of lesions after 60 min’ incubation. Additionally, we tested the in vitro repair capacity of human lymphocyte extracts from 5 individuals and found them to be able to incise DNA alkylations in the same range as AlkD. The modification of the comet assay with AlkD can be useful for in vitro and in vivo genotoxicity studies to detect alkylation damage and repair and also for human biomonitoring and molecular epidemiology studies.     

Investigation on sodium valproate induced germ cell damage, oxidative stress and genotoxicity in male Swiss mice

Sodium valproate (VPA) is the most widely used antiepileptic drug for the treatment of epilepsy, bipolar psychiatric disorders and migraine. However, long-term VPA treatment has several adverse effects on the reproductive system. The present study was aimed to investigate the possible germ cell toxicity of VPA in mice. Animals were treated with VPA intraperitoneally for 10 and 28 days at the doses of 500 mg/kg-d and 100, 200 and 400 mg/kg-d, respectively, and were sacrificed 24h after the last dose. The germ cell toxicity of VPA was assessed using oxidative stress parameters, sperm count, sperm head morphology, sperm comet assay, 8-oxo-dG expression and histology. VPA treatment significantly decreased the sperm count, testes and epididymis weight and significantly increased the sperm head abnormality, sperm DNA damage, oxidative stress and 8-oxo-dG expression in the testes of mice. The present study illustrates that VPA induced germ cell toxicity in mice.     

Astaxanthin inhibits cytotoxic and genotoxic effects of cyclophosphamide in mice germ cells

Cyclophosphamide (CP), an alkylating agent used in the treatment of several cancers as well as an immunosuppressant in rheumatoid arthritis. It is used against several cancers due to its broad spectrum efficacy, but at the same time possesses unwanted risks for occupational exposure as well as therapy related toxicities to patients. The present study was aimed to investigate the protective effect of astaxanthin (AST) a red carotenoid pigment on CP induced germ cell toxicity in male mice. CP was administered intraperitoneally (i.p.) at the dose of 50, 100 and 200mg/kg body weight to mice (20-25 g) once in a week for a period of five weeks. AST was given at the dose of 25mg/kg per oral (p.o.) for five consecutive days in a week for five weeks. The animals were sacrificed one week after the last injection of CP. The protective effect of AST against CP induced male germ cell toxicity was evaluated using body weight, testes and epididymis weight, sperm count, sperm head morphology, sperm comet assay, histology of testes and TUNEL assay. AST treatment significantly improved the testes weight, sperm count and sperm head morphology as compared to only CP treated animals. The result of comet assay showed that AST treatment significantly restored the sperm DNA damage induced by CP. Further, AST treatment showed protection against CP induced testicular toxicity as evident from testes histology and TUNEL assay. The present results indicate the chemoprotective potential of AST against CP induced germ cell toxicity in mice.     

Comet assay in murine bone-marrow cell line (FDC-P2)

The comet assay, also known as the single cell gel electrophoresis (SCGE) assay, is a rapid, simple, visual and sensitive technique for measuring DNA damage in mammalian cells. In the present study, Methyl methanesulfonate (MMS), 4-Nitrosoquinoline-Oxide (4NQO), Cyclophosphamide (CPA), and Benzo(a)pyrene (BP)-induced DNA damage was assayed in vitro in a murine bone-marrow cell line (FDC-P2), with or without an activation mixture (rat liver S9). All compounds caused significant DNA damage. With MMS and 4NQO, the frequency of comet tails, scored manually under a fluorescence microscope, increased dose-dependently, and reached a maximum of 53.2 and 74.8% respectively. Three parameters indicating DNA damage in the comet assay with the two-layer method, tail length, %DNA in tail, and tail moment, calculated using the automated image analysis software “Comet Analyzer v1.5” increased with all compounds. With MMS and 4NQO, all parameters increased at concentrations over 40 and 0.25 μmol/L, respectively. The in vitro comet assay with rat liver S9 could detect DNA damage caused by the metabolites of CPA and BP. The comet assay using the two-layer method is easy and efficient, and so can be conducted on a routine as basis. The assay with FDC-P2 cells was highly sensitive in detecting DNA damage with the frequency of comet tails, tail moment, %DNA in tail and tail length as indicators of the damage. Metabolism-mediated DNA damage could be detected with the addition of a rat S9 mixture at a final concentration of 6% for 6 h exposure.     

Enhancement of excision repair of cisplatin-DNA adducts by cell-free extract from a cisplatin-resistant rat cell line.

To characterize the enhanced repair synthesis of defined DNA lesions, oligodeoxyribonucleotides were synthesized and inserted into plasmid DNA. The inserted plasmid DNA was treated with cis-diamminedichloroplatinum(II) (cisplatin) and subjected to in vitro DNA repair assay with soluble extract from the rat liver cell line Ac2F. All cisplatin adducts tested stimulated DNA repair synthesis. Moreover, two cisplatin-resistant cell lines, Ac2F-CR4 and Ac2F-CR10, were established by stepwise exposure of Ac2F cells to this drug. The DNA repair synthesis was enhanced 3- to 4-fold in the extract from cisplatin-resistant Ac2F cells relative to that from Ac2F cells. Such repair synthesis was suppressed by the specific DNA polymerase inhibitor aphidicolin. The results of the present study suggested that the enhanced repair activity induced by a cisplatin adduct can be detected by in vitro DNA repair assay with soluble cell extract.     

甲胺磷对雄性小鼠的生殖毒性

本文采用一组试验方法对有机磷杀虫剂甲胺磷的雄性小鼠生殖毒性进行研究。以0.2,0.8和3.2mg/kg ig染毒小鼠,观察到精子活动率下降、畸形精子增多、精子线粒体酶活性下降以及睾丸组织细胞结构改变,并呈剂量-反应关系。甲胺磷对雄性小鼠生殖细胞具有潜在诱变能力,并可通过多种途径干扰生精细胞的分化和代谢。建议中毒的育龄男子定期检产精液直至结果恢复正常方可生育后代。     

Enhancement of genotoxic effects in the comet assay with human blood samples by aphidicolin

The comet assay (single cell gel electrophoresis) has become increasingly used in human biomonitoring. In its standard version at pH > 13, DNA lesions such as DNA double-strand breaks (DSB), DNA single strand breaks (SSB) and alkali-labile sites (ALS) lead to increased DNA migration. Besides DNA damage, strand break formation during excision repair can also increase DNA migration. Inhibitors of DNA repair have been shown to enhance the DNA effects of mutagens and the use of repair inhibitors has been proposed for human biomonitoring studies to increase the sensitivity of the comet assay. To further evaluate the usefulness of such an approach we performed an experimental study with human blood and tested the enhancing effect of aphidicolin (APC) on DNA effects induced by different mutagens. Our results clearly show that APC enhances the genotoxic effects of benzo[a]pyrene diolepoxide (BPDE), bischloroethylnitrosurea (BCNU) and methyl methanesulfonate (MMS), but has no significant effect on gamma radiation-induced DNA effects. The enhancing effect is seen in unstimulated and PHA-stimulated blood, indicating repair activity under both conditions but the effect is stronger in stimulated blood. Our results indicate that APC can be used to increase the sensitivity of the comet assay towards a broad spectrum of induced primary DNA lesions and support the usefulness of this approach. However, for human biomonitoring, a sensitive protocol still has to be established.     

Reproduction impairment following paternal genotoxin exposure in brown trout (Salmo trutta) and Arctic charr (Salvelinus alpinus)

This work describes some consequences of paternal germ cell DNA damage on the reproduction success in two fish species. Male brown trout (n = 31) and male Arctic charr (n = 28) were exposed to the model genotoxicant MMS at the end of spermatogenesis to generate a significant DNA damage level in mature spermatozoa (28% and 25% tail DNA in trout and charr sperm, respectively, evaluated through the comet assay). Sperm from each MMS exposed and control fish was then used to fertilize in vitro an aliquot of a single pool of eggs collected from 4 unexposed females for each species. Each batch of fertilized eggs was monitored individually in the hatchery to follow embryonic and larval abnormalities during the fry development. Paternal exposure did not influence fertilization rate or survival rate at hatching in either species. However, MMS paternal treatment resulted in a large array of morphological abnormalities during embryonic and larval development. At the eyed stage, malformations exhibited a 8 fold increase in trout and a 2 fold increase in charr for larvae stemming from MMS treated males as compared with controls. At the end of yolk sac resorption, an increase in the gross morphological abnormality incidence was found in trout larvae originating from MMS exposed males (2.10% vs. 0.93% in control, p < 0.05). When looking more in detail at bony structures after Alizarin red S staining, a 20% incidence of skeletal defects was recorded at the swimming stage. A positive correlation was found between the paternal sperm DNA damage level and the skeletal abnormality incidence of its progeny. During the next 2 months of development, mortality in trout originating from DNA damaged sperm was 3 times higher than in control. After one year, no effect of paternal treatment was found on growth traits (length and weight) but the gross morphological abnormality incidence was still very high in the treated group (27% malformation incidence vs. 0.5% in control). These results demonstrate ecologically relevant consequences of fish spermatozoa DNA damage and stress the value of using this parameter as a biomarker signaling potential long term effects of environmental genotoxins in aquatic systems.     

Relationship between DNA damage in sperm after ex vivo exposure and abnormal embryo development in the progeny of the three-spined stickleback

Many xenobiotics released in the aquatic environment exhibit a genotoxic potential toward organisms. Long term exposure to such compounds is expected to lead to multigenerational reproductive defects, further influencing the recruitment rate and hence, the population dynamics. Paternal exposure to genotoxicants was previously shown to increase abnormal development in the progeny of mammalian or aquatic species. The aim of this study was to evaluate the relationship between DNA damage in sperm of the fish three-spined stickleback and progeny developmental defects. Spermatozoa were exposed ex vivo to an alkylating agent (methyl methanesulfonate) before in vitro fertilization and DNA damage was assessed by the alkaline comet assay. A significant relationship between abnormal development and sperm DNA damage was underlined. This study illustrates the interest to use germ cell DNA damage after ex vivo exposure to evaluate the impact of genotoxic compounds on progeny fitness in aquatic organisms.     

Reproductive evaluation of aqueous crude extract of Achillea millefolium L. (Asteraceae) in Wistar rats

The present study was conducted to evaluate the toxicity of the exposure to the aqueous extract from leaves (AE) of Achillea millefolium L. on reproductive endpoints in Wistar rats. Adult male rats were treated daily with yarrow extract (0.3, 0.6 and 1.2 g/kg/day) during 90 days by oral gavage. Endpoints including reproductive organ weights, sperm and spermatid numbers as well as sperm morphology were evaluated. No clinical signs of toxicity were detected over the treatment period, and body weight gain was similar in all groups. A significant increase in the percentage of abnormal sperm in the group treated with the highest dose of yarrow extract was detected with no other important changes in the other reproductive endpoints studied in the male rats. Furthermore, a possible estrogenic/antiestrogenic activity of the yarrow extract screened after a 3-day treatment of immature female rats which did not show any uterotrophic effects.     

The comet assay with multiple mouse organs: comparison of comet assay results and carcinogenicity with 208 chemicals selected from the IARC monographs and U.S. NTP Carcinogenicity Database

The comet assay is a microgel electrophoresis technique for detecting DNA damage at the level of the single cell. When this technique is applied to detect genotoxicity in experimental animals, the most important advantage is that DNA lesions can be measured in any organ, regardless of the extent of mitotic activity. The purpose of this article is to summarize the in vivo genotoxicity in eight organs of the mouse of 208 chemicals selected from International Agency for Research on Cancer (IARC) Groups 1, 2A, 2B, 3, and 4, and from the U.S. National Toxicology Program (NTP) Carcinogenicity Database, and to discuss the utility of the comet assay in genetic toxicology. Alkylating agents, amides, aromatic amines, azo compounds, cyclic nitro compounds, hydrazines, halides having reactive halogens, and polycyclic aromatic hydrocarbons were chemicals showing high positive effects in this assay. The responses detected reflected the ability of this assay to detect the fragmentation of DNA molecules produced by DNA single strand breaks induced chemically and those derived from alkali-labile sites developed from alkylated bases and bulky base adducts. The mouse or rat organs exhibiting increased levels of DNA damage were not necessarily the target organs for carcinogenicity. It was rare, in contrast, for the target organs not to show DNA damage. Therefore, organ-specific genotoxicity was necessary but not sufficient for the prediction of organ-specific carcinogenicity. It would be expected that DNA crosslinkers would be difficult to detect by this assay, because of the resulting inhibition of DNA unwinding. The proportion of 10 DNA crosslinkers that was positive, however, was high in the gastrointestinal mucosa, stomach, and colon, but less than 50% in the liver and lung. It was interesting that the genotoxicity of DNA crosslinkers could be detected in the gastrointestinal organs even though the agents were administered intraperitoneally. Chemical carcinogens can be classified as genotoxic (Ames test-positive) and putative nongenotoxic (Ames test-negative) carcinogens. The Ames test is generally used as a first screening method to assess chemical genotoxicity and has provided extensive information on DNA reactivity. Out of 208 chemicals studied, 117 are Ames test-positive rodent carcinogens, 43 are Ames test-negative rodent carcinogens, and 30 are rodent noncarcinogens (which include both Ames test-positive and negative noncarcinogens). High positive response ratio (110/117) for rodent genotoxic carcinogens and a high negative response ratio (6/30) for rodent noncarcinogens were shown in the comet assay. For Ames test-negative rodent carcinogens, less than 50% were positive in the comet assay, suggesting that the assay, which detects DNA lesions, is not suitable for identifying nongenotoxic carcinogens. In the safety evaluation of chemicals, it is important to demonstrate that Ames test-positive agents are not genotoxic in vivo. This assay had a high positive response ratio for rodent genotoxic carcinogens and a high negative response ratio for rodent genotoxic noncarcinogens, suggesting that the comet assay can be used to evaluate the in vivo genotoxicity of in vitro genotoxic chemicals. For chemicals whose in vivo genotoxicity has been tested in multiple organs by the comet assay, published data are summarized with unpublished data and compared with relevant genotoxicity and carcinogenicity data. Because it is clear that no single test is capable of detecting all relevant genotoxic agents, the usual approach should be to carry out a battery of in vitro and in vivo tests for genotoxicity. The conventional micronucleus test in the hematopoietic system is a simple method to assess in vivo clastogenicity of chemicals. Its performance is related to whether a chemical reaches the hematopoietic system. Among 208 chemicals studied (including 165 rodent carcinogens), 54 rodents carcinogens do not induce micronuclei in mouse hematopoietic system despite the positive finding with one or two in vitro tests. Forty-nine of 54 rodent carcinogens that do not induce micronuclei were positive in the comet assay, suggesting that the comet assay can be used as a further in vivo test apart from the cytogenetic assays in hematopoietic cells. In this review, we provide one recommendation for the in vivo comet assay protocol based on our own data.     

Induction of DNA strand breaks, DNA-protein crosslinks and sister chromatid exchanges by arsenite in a human lung cell line.

Based on in vitro studies, several modes of action for arsenic have been suggested, although the mechanisms responsible for arsenic carcinogenesis have not been well established. In our previous study a dose-dependent increment in DNA migration was detected at low doses of sodium arsenite, but at higher dose levels a reduction in the migration was observed, suggesting the induction of DNA adducts. In order to confirm this hypothesis we performed the experiments considering other parameters and modifications of the standard alkaline comet assay. Additionally, the induction of sister chromatid exchanges was evaluated. The present study showed the induction by sodium arsenite of single strand breaks and DNA-protein adducts assessed by comet assay as well as of sister chromatid exchanges in the human lung fibroblast cell line MRC-5. The standard alkaline comet assay also revealed, at the highest arsenic concentration tested, a reduction in all the considered parameters in relation to untreated cells and the other doses. On the other hand, the incubation with proteinase K induced a dose-dependent increment in DNA migration as a consequence of the release of proteins joined to the DNA. Thus, sodium arsenite was able to induce both DNA-strand breaks and protein-DNA adducts in arsenic exposed MRC-5 cells, depending on the concentrations of arsenic salts tested.     

Evolution of DNA strand-breaks in cultured spermatocytes: the Comet Assay reveals differences in normal and gamma-irradiated germ cells.

In reproductive toxicity assessment, in vitro systems can be used to determine mechanisms of action of toxicants. However, they generally investigate the immediate effects of toxicants, on isolated germ cells or spermatozoa. We report here the usefulness of in vitro cultures of rat spermatocytes and Sertoli cells, in conjunction with the Comet Assay to analyze the evolution of DNA strand-breaks and thus to determine DNA damage in germ cells. We compared cultures of normal and gamma-irradiated germ cells. In non-irradiated spermatocytes, the Comet Assay revealed the presence of DNA strand-breaks, which numbers decreased with the duration of the culture, suggesting the involvement of DNA repair mechanisms related to the meiotic recombination. In irradiated cells, the evolution of DNA strand-breaks was strongly modified. Thus our model is able to detect genotoxic lesions and/or DNA repair impairment in cultured spermatocytes. We propose this model as an in vitro tool for the study of genotoxic injuries on spermatocytes.     

Hesperetin protects testicular toxicity of doxorubicin in rat: Role of NFκB, p38 and caspase-3

Doxorubicin is a widely used chemotherapeutic agent causing serious dose-dependent toxicity to non-target tissues such as testis. Its testicular toxicity is mainly due to the induction of oxidative stress. Hesperetin exerts its beneficial effects against oxidative stress-induced cellular damage. In the present investigation, doxorubicin was administered intraperitoneally at the dose of 4 mg/kg bw/week for a period of 5 consecutive weeks. Hesperetin was administered at the doses of 25, 50 and 100 mg/kg bw per oral by gavage for 5 consecutive days in a week for 5 weeks. Animals were sacrificed 1 week after the last injection of doxorubicin. The results of the present study clearly indicate the prevention of oxidative stress, DNA damage and the cellular toxicity by hesperetin treatment as evident from the analysis of biochemical parameters, comet assay, halo assay, Terminal Deoxynucleotidyl Transferase-mediated dUTP Nick End Labeling assay, immunohistochemistry and histology. Hesperetin protection against doxorubicin-induced germ cell toxicity was further evident from the sperm count and sperm head morphological evaluation. Moreover, the role of nuclear factor-kappa B, p38 and caspase-3 on hesperetin-mediated protection against doxorubicin-induced testicular toxicity was also investigated. The present study clearly revealed the amelioration of doxorubicin-induced testicular toxicity by the intervention with hesperetin.     

The effects in mice of combined treatments to X-rays and antineoplastic drugs in the Comet assay

The Comet assay is a rapid, easy and reproducible method to detect genotoxic activity of chemical and physical agents in vitro and in vivo. In the present study the effects of exposure to irradiation or chemicals: cyclophosphamide (CP) and mitomycin C (MMC) or combined exposure to low doses of both agents (0.25 Gy+3.15 mg/kgbw CP and 0.25 Gy+0.25 mg/kgbw MMC) were examined for the induction of DNA damage in the Comet assay measured simultaneously in somatic (bone marrow lymphocytes) and haploid germ cells. The male mice were treated in vivo and sacrificed at 24 h after exposure. The percentage contents of DNA in the "comet tail" increased with increasing doses of X-rays and chemicals. After combined exposure to X-rays and CP and to X-rays and MMC weak increases of DNA damage in bone marrow lymphocytes and in germ cells were observed by comparison with the results obtained for each agent acting alone. There were slightly different responses in bone marrow lymphocytes and in germ cells, but effects were observed over a similar dose range.     

Parental exposure to methyl methane sulfonate of three-spined stickleback: contribution of DNA damage in male and female germ cells to further development impairment in progeny

Data regarding the link between DNA integrity of germ cells and the quality of progeny in fish exposed to genotoxicant are scarce although such information is of value to understand genotoxic effects of contaminants in aquatic fauna. This work aimed at studying the consequences of a parental exposure during the breeding season on offspring quality in three-spined stickleback. After in vivo exposure of adult fish to methyl methane sulfonate, a model alkylating compound, a clear increase in DNA damage was observed in erythrocytes of both genders, here used as a biomarker of exposure. MMS exposure significantly affected sperm DNA integrity but neither female fecundity nor fertilization success. In order to understand the contribution of each sex to potential deleterious effects in progeny due to parental exposure, mating of males and females exposed or not to MMS, was carried out. Exposure of both males and females or of males alone led to a significant increase in both mortality during embryo–larval stages and abnormality rate at hatching that appeared to be sensitive stages. Thus, in accordance with recent studies carried out in other freshwater fish species, such development defects in progeny were clearly driven by male genome, known to be devoid of DNA repair capacity in spermatozoa. The next step will be to investigate the link between DNA damage in stickleback sperm and reproductive impairment in natural populations exposed to complex mixture of genotoxicants.     

DNA damage and adduct formation in immune organs of developing chicks by polycyclic aromatic hydrocarbons

Polycyclic aromatic hydrocarbons (PAHs) are persistent pollutants and chemically a class of structurally similar chemical compounds characterized by the presence of fused aromatic rings. This research was undertaken to find out immunotoxic effects produced by pyrene, phenanthrene and fluoranthene. These chemicals were injected into developing chicks at three dose levels (0.2, 2 and 20?mg per kg) through allantioc route to rule out possible mechanisms involved in immunotoxicity. DNA adduct produced by PAHs in immune organs were analyzed by DNA adduct enzyme-linked immunosorbent assay (ELISA) kit and DNA damage was assessed by comet assay. A significant increase in the DNA adduct levels was found in thymus and bursa in 2?mg and 20?mg dose levels of pyrene, fluoranthene and phenanthrene treated groups, whereas those in spleen simulated the value of controls. Comet assay indicated that PAHs especially pyrene, fluoranthene and phenanthrene were capable of inducing increased level of comet parameters in thymus at all the dose levels. Bursa of Fabricius and spleen also showed a gradual rise in comet parameters corresponding to all dose levels, but the increase was more marked as in thymus. Thus, it can be concluded that DNA adducts produced by PAHs lead to single-strand breaks and reduced DNA repair, which ultimately begin a carcinogenic process. Hence, this experiment can be considered as a strong evidence of genotoxic potential of PAHs like pyrene, phenanthrene and fluoranthene in developing chicks.     

Comparative genotoxicity investigation using comet and gammaH2AX assays for screening of genotoxicants in HepG2 human hepatoma cells

As public interest in safety has increased the toxicity evaluation of chemicals become more important. In this study, the DNA-damaging effect of genotoxicants was examined in HepG2 cell line originated from human hepatocellular carcinoma by widely used genotoxicity assays: the comet assay and gammaH2AX immunostaining. Four different direct/indirect genotoxicants were tested in dose-/time-dependent manner. The comet assay and the gammaH2AX immunostaining enables detection of DNA damages in the form of DNA strand breaks with different sensitivity. Therefore, the combination of comet assay and gammaH2AX immunostaining will be complementary tool for evaluation of various forms and degree of DNA damage. Our result also suggested that HepG2 cells could be a suitable model for assessing the genotoxicity of various mutagens and for determining the lowest genotoxic concentration. Further analysis using a larger number of chemicals is warranted to determine the sensitivity and the specificity of HepG2 with in vitro genotoxicity test.     

Permanent embryonic germ cell lines of BALB/cJ mice--an in vitro alternative for in vivo germ cell mutagenicity tests.

To offer a sensitive and predictive in vitro method to assess germ cell mutagenicity, we established primordial germ (PG) cell-derived permanent female and male embryonic germ (EG) cell lines of the mouse (strain BALB/cJ). The differences in developmental sensitivity of EG cells and differentiated fibroblast cells of the mouse cell line 3T3 to genotoxicants were tested comparatively under identical test conditions. Cytotoxicity assay was measured by the MTT test and genotoxic effects were determined by sister chromatid exchanges (SCE) rates induced by standard reference mutagens. Both methods are used to assign the chemicals to two classes of in vivo reproductive toxicity, non- and strongly genotoxic to germ cells. Applying linear discriminant analysis, a biostatistical prediction model (PM) was developed for the female cell line EG(3). This procedure identified a single variable, the Ig(SCE(200)EG(3)) as the statistically significant concentration related increase of 200% in the mean number of SCEs per metaphase spread after 3 h of exposure to be sufficient for separation into the classes: non- and strongly genotoxic to germ cells. Applying this PM to the training set of five genotoxic and three non-genotoxic test chemicals, 100% correct classifications were obtained.