The effectiveness of four in vitro short-term tests (STT) for genetic toxicity, induction of mutations in Salmonella (SAL) and mouse lymphoma L5178Y cells (MLA), and induction of sister chromatid exchanges (SCE) and chromosome aberrations (ABS) in Chinese hamster ovary cells that are used for predicting rodent carcinogenicity were examined. The in vitro results were compared with the results from 41 rodent carcinogenicity studies performed by the National Toxicology Program. The predictive values of, and interrelationships among, the STT for these 41 chemicals were similar to those previously reported for 73 chemicals and confirm those earlier results [Tennant RW, Margolin BH, Shelby MD, Zeiger E, Haseman JK, Spalding J, Caspary W, Resnick M, Stasiewicz S, Anderson B, Minor R (1987): Science 236:933-941]. Because of this similarity among the two datasets, the chemicals were combined into a single dataset of 114. The results with 114 chemicals show that SAL had the lowest sensitivity (.48) and the highest specificity (.91), whereas MLA had the highest sensitivity (.72) and the lowest specificity (.40). The concordances of the test results with rodent carcinogenicity were .66, .61, .59, and .59, for SAL, ABS, SCE, and MLA, respectively. Salmonella was the most predictive for carcinogenicity; 89% of the chemicals mutagenic in SAL were carcinogenic in rodents, however a negative result in any or all of the STT was not indicative of noncarcinogenicity. The STT results reported here show good agreement with the potential electrophilicity of the chemicals, and the majority of carcinogens that are undetected by the STT do not have an electrophilic structure. There was no complementarity among the tests and no combination of the four tests was more effective than any single test for predicting carcinogenicity.
The genotoxicity of the terpene beta-myrcene was evaluated in mammalian cells in vitro. Myrcene is the major constituent of oil of bay and hop which are used in the manufacture of alcoholic beverages. Myrcene is also present in lemon grass (Cymbopogon citratus), a plant widely used in Brazilian folk medicine. Recently, it was shown that myrcene is a very potent analgesic substance and might be an alternative to the already available analgesic drugs. Myrcene was tested up to 1,000 micrograms/ml (limit of solubility) in the presence and absence of S9-mix and did not induce chromosome aberrations and sister chromatid exchanges (SCEs) in human lymphocytes in vitro. Neither the mitotic index nor the proliferation index was influenced by the myrcene treatment. Myrcene did not cause increased mutation frequencies at the hprt-locus in V79-cells. Tests with and without S9-mix revealed negative results. There was no indication for induced cytotoxicity. However, myrcene reduced the SCE-inducing effect of cyclophosphamide in human lymphocytes in a dose dependent manner and also reduced the toxic and mutagenic effect of cyclophosphamide in V79-cells. Under the same test conditions, SCE induction by ethyl methanesulfonate (EMS) and benzo [a]pyrene (BP) was not significantly influenced by simultaneous myrcene treatment. The in vitro results show that myrcene is not mutagenic in mammalian cells, but has antimutagenic properties. The possibility that myrcene exerts its antimutagenic activity by inhibiting certain forms of the cytochrome P-450 isoenzymes required for activation of premutagens and precarcinogenes is discussed.
Heterozygous p53 +/-transgenic mice are being studied for utility as a short-term alternative model to the 2-yr rodent carcinogenicity bioassay. During a 26-wk study to assess the potential carcinogenicity of oxymetholone using p-cresidine as a positive control, glass/ polypropylene microchips (
Experimental data from the testing of 31 chemicals for mutagenicity at the TK locus in L5178Y mouse lymphoma cells are presented and evaluated. If mutagenic activity was not obtained for the chemical added to suspension cultures for 4 hr, then the testing was repeated in the presence of hepatic S9 mix prepared from Aroclor 1254-induced male Fischer 344 rats. Multiple trials were performed for each chemical, and mutagenic treatments were analyzed for the induction of small and large mutant colony populations. Twelve chemicals were not detected as mutagenic, one (ascorbic acid) was questionable, and 18 were evaluated as mutagenic. These results were used in the evaluations presented by Tennant et al. [Science 236:933-941, 1987] in a critical comparison of four in vitro genotoxicity assays with rodent carcinogenicity results. The mouse lymphoma assay results were in general agreement with the carcinogenicity studies. Discordant evaluations with respect to carcinogenicity (four false negatives and six false positives) were discussed from the standpoint of how the predictive performance of the in vitro mutation assay might be improved.
In recent years, evidence has accumulated that suggests that mammalian topoisomerase may play a role in the formation of spontaneous or chemically induced sister chromatid exchange (SCE). In microbial systems, nalidixic acid is known to disrupt the function of a topoisomerase-like enzyme, DNA gyrase. To explore the possible relationship to topoisomerase function and SCE formation in mammalian cells, an analog of nalidixic acid with potent topoisomerase II inhibitory activity was selected for examination in a variety of genetic toxicology assays. This analog, CP-67,015, proved to be a positive direct-acting mutagen in the L5178Y/TK+/-, CHO/HGPRT, and V79/HGPRT systems. However, no gene mutational activity was observed using the Ames test in direct plate, mouse and rat metabolic activation, and mouse urine tests. In vitro cytogenetic studies showed strong clastogenic activity in human lymphocytes and in CHO cells. Compound-induced chromosome damage was also observed in vivo in mouse bone marrow cells. Surprisingly, SCE studies in vitro in human lymphocytes or CHO cells showed only slight increases, even at levels producing severe chromosome breakage. Mouse bone marrow showed no significant elevation of SCE following parenteral treatment with CP-67,015. These results, taken together, demonstrate that CP-67,015 is a direct-acting mutagen in mammalian cells with both gene and chromosomal level effects. The relative ineffectiveness in producing SCEs suggests that CP-67,015 may interfere with a DNA replicative/repair process, perhaps by alteration of one or more DNA polymerase activities. This suggestion is based in part on the known effect of the analog nalidixic acid on DNA gyrase in microbial cells and on topoisomerase in mammalian cells. The profile of genetic activity of CP-67,015, coupled with its inhibitory effect on topoisomerase function, gives rise to a model for SCE formation that is based on anomalies of topoisomerase activity during DNA synthesis.
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