To study the genotoxic activity of Decemtione (Imidan), this substance was subjected to a series of tests. After preliminary cytotoxicity testing, the capacity of Decemtione to damage human DNA was determined by alkaline elution of DNA and DNA unwinding. Both tests gave positive results, suggesting that Decemtione was able to induce single-strand breaks in DNA. This capacity was higher in the absence and lower in the presence of the S9 fraction. The potential mutagenicity of Decemtione was followed on the basis of its ability to induce resistance to 6-thioguanine in V79 hamster cells. Unlike the induction of single-strand breaks, Decemtione showed, in the absence of the metabolic activation system, a very weak mutagenic effect, which was, however, significantly higher in the presence of the S9 fraction. The ability of the substance to transform diploid cells under in vitro conditions was followed on the basis of morphological transformation of Syrian hamster embryo cells. The results showed that Decemtione, like positive carcinogenes, induced a significant elevation in morphologically transformed colonies of embryo cells. The results suggest a carcinogenic potential of this organophosphate insecticide.
Human diploid fibroblasts (strain VH-10) were exposed to the direct-acting alkylating agent, ethylene oxide (EtO), in vitro, and the frequency of HPRT mutants was evaluated by selection in medium containing 6-thioguanine. A dose-dependent increase of the mutant frequency was found in the dose range of 2.5-10 mMh of EtO. The EtO-induced mutant frequency increased 5-19 times the background frequency at low or moderately toxic doses, which indicates that EtO is a strong mutagen in human fibroblasts in vitro. The mutagenic potency was 9.8 x 10(-6) per mMh.
In a study of potential carcinogenicity of pesticides, Piritione, metolachlor (in the form of Dual and VUCHT 524) and Supercypermethrin (in the form of Supercypermethrin EC and Supercypermethrin TP) were assayed for induction of anchorage independent growth of BHK21 cells and morphological transformation of Syrian hamster embryo cells. The activity of these substances in both transformation assays was compared to the activity of the direct-acting ultimate carcinogen N-methyl-N-nitrosourea. In comparison to the very strong transforming activity of N-methyl-N-nitrosourea all pesticides tested with or without S9 fraction manifested a very weak, weak, medium or strong effect. The ability to induce anchorage independent growth was graded as follows: Dual < Supercypermethrin EC < Supercypermethrin TP < or = Piritione < VUCHT 524. Results of Syrian hamster embryo cell transformation assay were very similar to the BKH21 transformation assay. VUCHT 524 strongly induced transformation whereas Dual was inactive. Piritione and Supecypermethrin EC and Supercypermethrin TP elicited a slight but significant positive response.
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