Studies by means of the SCE assay in V79-E Chinese hamster cells on the mode of action of tri-substituted nitrosoureas

The genotoxic activity of 3,3-diethyl-1-methyl-1-nitrosourea ( DEMNU ), 1,3-dimethyl-3-phenyl-1-nitrosourea ( DMPNU ) and 1-chloroethyl-3-methyl-3-phenyl-1-nitrosourea ( CEMPNU ) was studied in the SCE assay in V79-E cells in vitro. These compounds are very stable in aqueous solutions, but are directly acting genotoxins . The SCE rates increase linearly with the length of the incubation period. This direct activity is presumably due to an intracellular catalytic decomposition. Whereas the SCE-inducing effect of DMPNU and CEMPNU is not influenced by addition of S9 mix, that of DEMNU is strongly potentiated by rat and Syrian hamster S9 mix. This DEMNU activation is an NADPH-dependent enzymatic reaction and is inducible by phenobarbital. The absence of a direct mutagenic effect of DEMNU in the Ames test, as reported by other authors, is probably caused by a striking insensitivity to tri-substituted nitrosoureas of the Salmonella assay. This assumption was substantiated by long-term application of very low DMPNU doses to V79-E. Long-term simultaneous treatment with DMPNU and bromodeoxyuridine (BUdR) significantly diminished the rate of SCE induction.     

Patulin,a further clastogenic mycotoxin,is negative in the SCE assay in Chinese hamster V79-E cells in vitro

Patulin is a potent inducer of chromatid-type aberrations in Chinese hamster V79-E cells, but loses its activity when 9000 g supernatant of rat-liver homogenate is added. The narrow dose range of patulin clastogenicity shows a quantitative relationship between absolute amount of mycotoxin applied and the number of indicator cells treated. Within a dose range permitting survival of V79-E, patulin does not induce an increase of the SCE rate. It is suggested that patulin clastogenicity is caused by interaction with chromosomal proteins and that DNA is not the virtual target of this mycotoxin.     

Activity of citrinin metabolized by rat and human microsome fractions in clastogenicity and SCE assays on Chinese hamster V79-E cells.

The mycotoxin citrinin is a potent inducer of chromosomal aberrations in the clastogenicity assay on V79-E cells when metabolized by rat and human liver microsomes. Rat and human liver microsomes, standardized on protein content, activate citrinin at equal levels. 5 X 10(-4) M citrinin induces complex translocations in a high frequency as well as defects of chromosomal coiling. Higher concentrations are cytotoxic, lower ones are almost inactive. After metabolization of mycotoxin by rat-kidney microsomes or an S9 mix fraction containing rat liver and kidney microsomes, toxic effects predominate and chromosomal aberrations are diminished. Clastogenic citrinin concentrations do not induce an increase of SCE frequency. Although the mode of action of this mycotoxin on chromosomal structure remains obscure, possible explanations are discussed.     

Lack of activity of the bacterial mutagen emodin in HGPRT and SCE assay with V79 Chinese hamster cells

Genotoxicity of emodin was studied in the Salmonella/microsome assay, the sister-chromatid exchange (SCE) assay and the hypoxanthine-guanine-phosphoribosyltransferase (HGPRT) forward mutation assay with V79 Chinese hamster cells. In the Salmonella/microsome assay, emodin was found to be positive in TA97, TA100 and TA1537 in the presence of liver homogenate. In TA1537 a weak direct mutagenicity was also observed. In both mammalian test systems, no genotoxicity was found either with or without metabolic activation.     

Exogenous glutathione induces sister chromatid exchanges,clastogenicity and endoreduplication in V79-E Chinese hamster cells

Glutathione (GSH) dissolved in Eagle's MEM and added to cultures o of V79-E cells in concentrations between 2.5 × 10^–4 and 10^–3 moles/l for 1 h induces a dose-dependent cell cycle delay, sister chromatid exchanges and clastogenic damage. 7–8% of the metaphases showed endoreduplication at a recovery phase of 25 and 30 h after treatment with 10^–3 molesll GSH. Higher concentrations were lethal. The highest tolerated dose corresponds to the intracellular GSH level in V79-E cells. In the same range of concentrations, glutathione disulfide was inactive. Endoreduplication induction by GSH is G2-phase specific and endoreduplication metaphases show a reduced occurrence of single SCEs when extrapolated to the diploid complement. The adverse effects of GSH are independent of the presence of serum in the culture fluid but completely abolished when the treatment is performed in Hank's solution instead of MEM. The mechanism of genotoxicity of exogenous GSH is discussed but, at present, no pertinent explanation can be given.Abbreviations BUdR 5-bromodeoxyuridine - GSH glutathione - GSSG glutathione disulfide - SCE sister chromatid exchange     

Effect of biological toxins on gap-junctionai intercellular communication in Chinese hamster V79 cells

Since chemical modulation of gap junctional intercellular communication has been implicated in several toxicological endpoints, a study to examine the ability of several biological toxins to inhibit this process was undertaken. Eight biological toxins were tested for their ability to inhibit metabolic cooperation, a measure of gap-junctional intercellular communication, in the Chinese V79 cell system. Aplysiatoxin, anhydrodebromoaplysiatoxin and debromoaplysiatoxin showed the strongest ability to inhibit metabolic cooperation while T2-toxin and vomitoxin inhibited metabolic cooperation to a lesser degree. Afatoxin B₁, afatoxin B₂ and palytoxin were inactive in the Chinese V79 system. Palytoxin, which was extremely cytotoxic, might act as a tumor promoter if it induces compensatory hyperplasia in vivo.Abbreviations 6-TG 6-thioguanine - TPA 12-0-tetradecanoylphorbol-13-acetate     

Mutagenic and clastogenic activity of nitracrine analogues in cultured V79 Chinese hamster cells

Nitracrine is used clinically as an antitumour agent, and analogues are actively being developed in some laboratories. The mutagenic activity of 9-[(3-dimethylaminopropyl)amino]-acridine and its 1-nitro (nitracrine), 2-, 3- and 4-nitro derivatives was evaluated at the 6-thioguanine and ouabain resistance loci in cultured Chinese hamster fibroblasts (V79-171b cell line). The des-nitro, 2- and 3-nitro caused no statistically significant mutagenic activity at either locus. Each of these 3 compounds weakly increased (approximately 2-fold) the incidence of micronuclei in the same cell line when tested at cytotoxic doses. Both the 1- and 4-nitro compounds increased the incidence of 6-thioguanine resistant cells from around 1 in 10(-6) to approximately 1 in 10(-4). The former compound significantly increased the frequency of ouabain-resistant cells. Both of these compounds were potent inducers of micronuclei in V79-171b cells, indicating high clastogenic activity. It would appear prudent to regard both of these compounds as potential human carcinogens.     

Structure-activity relationships of epoxides: induction of sister-chromatid exchanges in Chinese hamster V79 cells

Analysis of SCE frequencies in Chinese hamster V79 cells was used to investigate structure-activity relationships of epoxides in mammalian cells. For this purpose the SCE-inducing potency of 58 epoxides was determined. Of these, 16 failed to induce SCE in V79 cells. According to the substitution of the oxirane ring the results show general agreement with results obtained in the Ames test. Mono-substituted epoxides had the highest genotoxic potency compared to di- and tri-substituted epoxides. In detail, there are differences in genotoxic potency between bacteria and mammalian cells which can be explained by differences in the cellular uptake of the compounds and by detoxification reactions.     

In vitro and in vivo inhibition of telomerase activity from Chinese hamster V79 cells

While studying the inhibition of telomerase activity in Chinese hamster V79 cells using polymerase chain reaction (PCR) based telomeric repeat amplification protocol (TRAP) assay, we had earlier observed that 7-deaza deoxy guanosine triphosphate (7-deaza dGTP) and oligonucleotide (TTAGGG)4 inhibited telomerase activity in vitro. In the present study, we report inhibition of telomerase activity by modified base 7-deaza deoxy adenosine triphosphate (7-deaza dATP) and phosphorothioate TTAGGG (PS-TTAGGG). Both the compounds inhibited telomerase activity in a concentration dependent manner; 8.5 microM of 7-deaza dATP and 0.1 microM of PS-TTAGGG being the concentration for 50% of the maximum inhibition. This observation supports our earlier hypothesis that incorporation of a modified nucleotide into telomere possibly interferes with the recognition of the telomerase and TTAGGG interferes with the RNA component of telomerase. We have further shown that treatment of cells with nicotinamide (NA) and benzamide (BA), well known inhibitors of poly (ADP-ribose) polymerase, reduced telomerase activity. We speculate that modification of the telomeric binding proteins or other components by poly (ADP-ribosyl)ation may be involved in such inhibition.     

Analysis of electroporation-induced genetic damages in V79/AP4 Chinese hamster cells

Electroporation is a recent technique used to introduce exogenous DNA into eukaryotic cells. It is important to establish that the gene of interest is transferred into a functional, non-mutated recipient cell. V79/AP4 Chinese hamster cells were exposed to high-voltage pulsed electric fields and some biological and genetic effects were measured. The results showed that cytotoxicity was related in a dose-dependent manner to the number of applied pulses. Thioguanine-resistant colony-forming cells as well as chromosomal aberrations were also induced whereas ouabain resistants and sister-chromatid exchanges were not or slightly induced. Spontaneous and electroporation-induced clones that were phenotypically TG^R/HAT^S were used to investigate the hprt locus. Molecular screening of the locus showed that the number of deleted exons was significantly higher in induced than in spontaneous TG-resistant clones, suggesting that the genetic damages induced by electroporation concern the loss of regions well over the size of the hprt locus.     

Desmutagenic and bio-antimutagenic activity of docosahexaenoic acid and eicosapentaenoic acid in cultured Chinese hamster V79 cells

The antimutagenic activities of docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA) were examined by studying their effects on induction of 6-thioguanine (6TG)-resistant mutations by ethyl methanesulfonate (EMS) in cultured Chinese hamster V79 cells. DRA had a remarkable inhibitory effect against the cytotoxicity of EMS, when cells were simultaneously-treated with EMS, showing a blocking or scavenging activity of DHA in reduction of surviving fraction of cells. DHA had not so significant effect, when cells were treated before and after treatment with EMS. On the other hand, EPA had marked inhibiting effects against cytotoxicity of EMS, when cells were treated with EPA, before, simultaneous and after treatment with EMS. Against the induction of mutations by EMS, an antimutagenic activity of DHA was found when cells were pre-treated, simultaneously-treated or post-treated with DHA. EPA was also effective in reducing EMS-induced 6TG-resistant mutations when the cells were treated using the three different treatment procedures described above. The results suggest that in cultured Chinese hamster V79 cells, DHA and EPA may have both desmutagenic activity, which inactivates EMS chemically and/or enzymatically and bio-antimutagenic activity which suppresses mutation fixation after DNA is damaged by EMS.     

Factors affecting the quantitation of dose-response curves for mutation induction in V79 Chinese hamster cells after exposure to chemical and physical mutagens.

Using four common mutagens, ethyl methanesulphonate (EMS), methyl methanesulphonate (mms), uv, and X-irradiation, the relationship between dose of mutagen, cellular lethality and frequency of 8-azaguanine resistant colonies in V79 Chinese hamster cells has been examined. Several factors affecting the recovery of mutants including inter and intra-clone metabolic co-operation have been quantitated and their influence on survival response curves examined. Induced mutant frequencies were assayed by two methods in situ, and after replating. After exposure to X-rays, MMS and UV a significantly higher frequency of mutants was observed in replated experiments as compared with the in situ situation, at all survival levels assayed. With EMS, an increment on replating was observed only at high survival levels. The replating data suggest that two types of azgr colonies are produced, i.e. those which contain only azgr cells and those which, due to damage segregation, contain a mixture of azgr and azg8 cells. These mixed colonies appear to be lost by metabolic co-operation when mutation frequencies are assayed in silu. The proportion of mixed to homogeneous colonies differs with different mutagens. Taking into account such factors, EMS and UV irradiation were similarly mutagenic at a given survival level, but at equitoxic doses, fewer mutants were recovered after exposure of V79 cells to MMS and X-rays.     

Effects of diethylstilbestrol and its methyl ethers on aneuploidy induction and microtubule distribution in Chinese hamster V79 cells

We previously reported that diethylstibestrol (DES) and its derivatives inhibit the in vitro polymerization of microtubule proteins isolated from porcine brain (Sato et al., 1987). We found that the presence of the free hydroxy group of DES was indispensable for the inhibition of microtubule assembly. In the present investigation, this structure-activity relationship was confirmed by the effects of DES and its methyl ethers on chromosome number and the cellular microtubule architecture of Chinese hamster V79 cells, revealed by fluorescent anti-tubulin antibody. DES induced tetra- and octa-ploidy and DES monomethyl ether induced only tetraploidy at a much slower rate, whereas DES dimethyl ether was found to be completely inactive. Furthermore, DES was more active than its monomethyl ether in disturbing microtubule formation within cells. These results support the initial assumption that polyploidy is largely a consequence of the disturbed assembly of microtubules.     

Failure of caffeine to influence induced mutation frequencies and the independence of cell killing and mutation induction in V79 Chinese hamster cells

Using V79 Chinese hamster cells and replating assay, no effect of caffeine post-treatment on spontaneous or UV- or EMS-induced mutation frequencies to 8-azaguanine resistance was demonstrable. However, considerable potentiation of cell killing was observed. Previous reports that caffeine enhances induced mutation frequencies are explained by an artefact in the in situ method used; a similar artefact may also explain the cumulative in situ mutation dose-responde curves. Furthermore, the relationship between mutation induction and dose has been shown to be qualitatively distinct from that between cell killing an dose. These differences suggest that cell killing and mutation induction are mediated via independent mechanisms and that pre-mutational lesions may be qualitatively distinct from pre-lethal lesions.     

Association of mutator activity with UV sensitivity in an aphidicolin-resistant mutant of Chinese hamster V79 cells

The spontaneous mutation rates of an ultraviolet light (UV)-sensitive aphidicolin-resistant mutant (aph^r-4-2) and its revertants have been determined by 2 techniques. By using the fluctuation analysis, the mutant and its thymidine (TdR)-prototrophic ‘revertant’ were found to exhibit elevated spontaneous mutation rates at the 6-thioguanine- and diphtheria-toxin-resistant loci. In constrast, the TdR-auxotrophic ‘revertant’ did not show this property. Similar results were obtained by the multiple replating technique. From these comparative studies and other previous characterizations, it appears that a single gene mutation is responsible for the following pleiotropic phenotype: slow growth, UV sensitivity, high UV-induced mutability, high frequency of site-specific bromodeoxyuridine (BrdU)-dependent chromosome breaks and enhanced spontaneous mutation rate. Recent studies indicate that the mutation may be on the gene for DNA polymerase α. The results further indicate that thymidine auxotrophy or imbalance in nucleotide poolsis not necessarily associated with the mutator activity in mammalian cells.     

Evaluation of genotoxicity of N-nitrosodibenzylamine in Chinese hamster V79 cells and in Salmonella

Health concerns have arisen due to the formation of N-nitrosodibenzylamine (NDBzA; CAS No. 5336-53-8) in pork processed in a new type of rubber netting. In view of the potent carcinogenicity of related nitrosamines (e.g. N-nitroso-n-dibutylamine and N-nitrosodiethylamine), NDBzA was evaluated for genotoxicity in vitro in both Chinese hamster V79 cells and in Salmonella. In V79 cells, concentrations up to 25 micrograms/ml were tested with and without activation by rat or hamster hepatocytes. Significant elevation of SCE frequency was seen only at 25 micrograms/ml in the presence of uninduced hamster hepatocytes. Mutation to 6-thioguanine resistance was observed at 25 micrograms/ml, in the absence of hepatocytes and in the presence of induced (Aroclor 1254) or uninduced hamster hepatocytes, but not with rat hepatocytes. With uninduced rat hepatocytes, a small but significant (p less than 0.05) increase in the mutation frequency was seen with 10 micrograms/ml NDBzA. In the Salmonella assay, using a pre-incubation protocol and concentrations up to 1000 micrograms/ml, NDBzA was negative in strain TA98, and in TA100 with rat S9, but was positive at the highest dose in TA100 with hamster S9, and more strongly with Aroclor 1254-induced hamster S9. When activated by uninduced rat or hamster hepatocytes, as opposed to S9, NDBzA was negative with all tester strains. Hamster hepatocytes activated more than rat in the V79 studies, and hamster S9 was more strongly activating in the Salmonella assay. These results indicate that NDBzA is weakly mutagenic to both Salmonella and V79 cells.     

Mutagenicity of vinyl chloride, vinylidene chloride and chloroprene in V79 Chinese hamster cells.

The mutagenicity of vinyl chloride, vinylidene chloride (1,1-dichloroethylene) and chloroprene (2-chloro-1,3-butadiene) was tested in V79 Chinese hamster cells in the presence of a 15 000 x g liver supernatant from phenobarbitone-pre-treated rats and mice. Mutations in terms of 8-azaguanine and ouabain resistance were induced in a dose-related fasion by exposure to vapour of vinyl chloride in the presence of liver supernatant from phenobarbitone-pretreated rats. Vapours of vinylidene chloride and chloroprene induced a dose-related toxicity in the presence of liver supernatant from phenobarbitone-retreated rats, but these two compounds were not mutagenic in V79 Chinese hamster cells under the present assay conditions. The results are discussed with regard to the metabolic activation of the compounds and to the correlation with their carcinogenicity in man and experimental animals.     

Comutagenesis of sodium arsenite with ultraviolet radiation in Chinese hamster V79 cells

Summary Solar ultraviolet radiation has been associated with the induction of skin cancer. Recent studies have indicated that near-ultraviolet, especially UVB, is mutagenic. Exposure to trivalent inorganic arsenic compounds has also been associated with increased skin cancer prevalence. Trivalent arsenic compounds are not mutagenicper se, but are comutagenic with a number of cancer agents. Here, we test the hypothesis that arsenite enhances skin cancer via its comutagenic action with solar ultraviolet radiation. Irradiation of Chinese hamster V79 cells with UVA (360 nm), UVB (310 nm) and UVC (254 nm) caused a fluence-dependent increase in mutations at thehprt locus. On an energy basis, UVC was the most mutagenic and UVA the least. However, when expressed as a function of toxicity, UVB was more mutagenic than UVC. Nontoxic concentrations of arsenite increased the toxicity of UVA, UVB and UVC. Arsenite acted as a comutagen at the three wavelengths; however, higher concentrations of arsenite were required to produce a significant (P < 0.05) comutagenic response with UVB. The increased mutagenicity of UVB and UVA by arsenite may play a role in arsenite-related skin cancers.