The L5178Y/TK gene mutation assay for the detection of chemical mutagens

The genetic toxicology of acridines

Acridine and its derivatives are planar polycyclic aromatic molecules which bind tightly but reversibly to DNA by intercalation, but do not usually covalently interact with it. Acridines have a broad spectrum of biological activities, and a number of derivatives are widely used as antibacterial, antiprotozoal and anticancer drugs. Simple acridines show activity as frameshift mutagens, especially in bacteriophage and bacterial assays, by virtue of their intercalative DNA-binding ability. Acridines bearing additional fused aromatic rings (benzacridines) show little activity as frameshift mutagens, but interact covalently with DNA following metabolic activation (forming predominantly base-pair substitution mutations). Compounds where the acridine acts as a carrier to target alkylating agents to DNA (e.g. the ICR compounds) cause predominantly frameshift as well as base-pair substitution mutations in both bacterial and mammalian cells. Nitroacridines may act as simple acridines or (following nitro group reduction) as alkylating agents, depending upon the position of the nitro group. Acridine-based topoisomerase II inhibitors, although frameshift mutagens in bacteria and bacteriophage systems, are primarily chromosomal mutagens in mammalian cells. These mutagenic activities are important, since the compounds have considerable potential as clinical antitumour drugs. Although evidence suggests that simple acridines are not animal or human carcinogens, a number of the derived compounds are highly active in this capacity.

Stability of tk-/- mutants of L5178Y mouse lymphoma cells in Fischer's medium

The phenotypic stability of over 2000 large- and small-colony trifluorothymidine-resistant (TFTres) variants of L5178Y/tk(+/-)-3.7.2C cells has been examined. All except 4 of 488 spontaneously arising small-colony variants analyzed (0.8%) retained the TFTres phenotype when rechallenged with TFT after growth for several generations in its absence. All of 558 spontaneous large-colony variants, and 440 small-colony or 487 large-colony variants arising from 13 different mutagens showed similar stability. These results attest to the completeness of TFT selection in the mouse-lymphoma assay when used at 1 microgram/ml in Fischer's medium supplemented with heat-inactivated serum and, together with previous cytogenetic and molecular studies, justify considering essentially all such TFTres variants as stable mutants. The implications of these results for those versions of the mouse lymphoma assay that fail to optimize the recovery and scoring of small-colony mutants is discussed.

International Commission for Protection Against Environmental Mutagens and Carcinogens. ICPEMC publication No. 18. Review of the genotoxicity and carcinogenicity of antischistosomal drugs; is there a case for a study of mutation epidemiology? Report of a task group on mutagenic antischistosomals

One of the interests of ICPEMC is to identify situations in which the possible induction of inherited defects in man by mutagen exposure could actually be studied. The large-scale use of mutagenic drugs in field programmes against schistosomiasis, mainly during the 1970's, was considered a possible case. An ICPEMC task group approached the problem by (1) updating the genetic toxicology data base for antischistosomal drugs, and (2) reviewing possible study areas. Expertise was combined from genetic toxicology, mutation epidemiology and tropical medicine. It was considered that: (a) if any, hycanthone would be the most appropriate candidate drug for study; (b) it would be virtually impossible to meet the basic requirements of an appropriate mutation epidemiology study, in endemic countries; (c) as more defined genetic endpoints would be selected (e.g. sentinel phenotypes) the required large sample sizes would seem prohibitive, since documentation on past programmes is limited and local demography would render the reliable tracking of substantial numbers of offspring of treated persons an almost impossible task; (d) in most endemic countries proper diagnosis and registration of inherited defects is largely lacking; (e) the problems encountered in demonstrating inherited effects in humans after heavy or chronic exposure to established animal mutagens such as ionizing radiation and cancer chemotherapy, in combination with the ambiguous nature of the animal germ cell data with hycanthone, do not particularly warrant large expectations; (f) since non-mutagenic antischistosomal drugs are now in use, the problem is academic and of low priority in the endemic countries whose medical and research resources are often limited. Thus, studying offspring of hycanthone-treated people to demonstrate the mutagenic potential of the drug in man is not a viable enterprise.

The critical influence of temperature upon trifluorothymidine resistance in mouse lymphoma L5178Y/TK 3.7.2C cells

L5178Y/TK 3.7.2C cells are used for the assessment of chemical mutagenesis caused by presumptive TK gene mutations or multiple loci mutations affecting the TK locus that result in dose-related increases in resistance to the toxic thymidine analog, trifluorothymidine (TFT). This study was based upon our general observation that the incidence of TFTres in these cells could vary with the incubation temperature. As a result of these studies, we found that: (1) a substantial proportion of presumptive TK-/- variants produced by the mutagens 2-aminofluorene (2-AF), N-acetylaminofluorene (AAF), benzo[a]pyrene (B[a]P), 3-methylcholanthrene (3MCA), hycanthone methanesulfonate (Hyc), or methyl methanesulfonate (MMS) are more resistant to TFT at 37 degrees C than at 28 degrees C (or 39 degrees C than at 33 degrees C), (2) the loss of resistance to TFT was most notable in the small-colony variant population, (3) mutagen-derived variants become less resistant as the TFT concentration is increased from 4 micrograms/ml to 50 micrograms/ml, an effect that is more pronounced at 28 degrees C than at 37 degrees C, and (4) stock 3.7.2C cells develop a persistent TFTres due to sharply decreased TK activity when exposed to 40 degrees C for at least 24 h. These data demonstrate two different responses by these cells with respect to temperature stability at the TK locus and suggest that the degree of TFTres is influenced by both temperature and concentration of selective agent in this presumptive gene/chromosomal mutation assay.

The mutagenicity of 5-azacytidine and other inhibitors of replicative DNA synthesis in the L5178Y mouse lymphoma cell

The mutagenic potential of the cytidine analog, 5-azacytidine (Aza Cyd), was tested at the thymidine kinase (TK) gene locus of L5178Y mouse lymphoma cells. 3-h exposure to as little as 20 ng/ml Aza Cyd yielded a substantial increase in TK-deficient L5178Y cells as measured by drug-induced resistance to trifluorothymidine (TFTres) 48 h later. This mutagenic effect was diminished up to 75% when Aza Cyd was tested in the presence of either enzymatically active or heat-denatured 9000 X g supernatant prepared from rat liver homogenate. The mutagenicity of Aza Cyd was also decreased in the presence of 1-5 X 10(-3) M thymidine and eliminated in the presence of greater than 1 X 10(-5) M cytidine. Two L5178Y TK-deficient cell lines had no selective survival advantage compared to TK-competent L5178Y cell stock when plated in soft-agar medium that contained Aza Cyd. Four other specific inhibitors of scheduled DNA synthesis in mammalian cells, deoxyadenosine, aphidicolin, 1-beta-D-arabinofuranosylcytosine, and hydroxyurea were also L5178Y/TK mutagens. These data along with other published results suggest that chemicals known to disrupt nucleotide biosynthesis, alter deoxyribonucleotide pools, or directly inhibit DNA polymerase can cause stable, heritable increases in TFT resistance through mechanisms dependent upon altered replicative DNA synthesis, yet not necessarily dependent upon DNA incorporation or the binding of these mutagenic agents to nuclear DNA.

Evaluation of ochratoxin A for mutagenicity in a battery of bacterial and mammalian cell assays

Ochratoxin A (OA), a nephrotoxic mycotoxin, was evaluated for genotoxic potential in a battery of in vitro and in vivo assays. OA was not mutagenic to Salmonella typhimurium, either with or without metabolic activation, in the plate incorporation (Ames) test at concentrations of 50-600 micrograms OA/plate or in the gradient plate assay at concentrations of 0.1-1000 micrograms OA/ml. No induction of unscheduled DNA synthesis was evident in primary cultures of rat hepatocytes exposed to concentrations of OA ranging from 0.000025 to 500 micrograms/ml. In the mouse lymphoma forward mutation assay, exposure of L5178Y TK+/- mouse lymphoma cells to OA did not increase the numbers of L5178Y TK-/- mutants. There was no significant difference between the numbers of sister-chromatid exchanges in cells from OA-treated Chinese hamsters and those in cells from the negative-control animals.

Mutagenesis at the ouabain-resistance locus of 3.7.2C L5178Y cells by chromosomal mutagens

Chemical mutagens including methyl methanesulfonate, N-methyl-N'-nitro-N-nitrosoguanidine, iodomethane, and epichlorohydrin have been classified as "chromosomal mutagens" in the L5178Y/thymidine kinase (TK) gene mutation assay by Clive and coworkers [Mutat Res 59:61-108, 1979; and "The Predictive Value of Short-Term Screening Tests in Carcinogenicity Evaluation." Amsterdam: Elsevier/North Holland, pp 103-123, 1980] who observed mutagen-dependent increases in small TK-deficient mutant colonies with detectable damage to the chromosome (11) that carries the TK locus. In this study, we tested these four chemicals for the induction of gene mutations at the ouabain-resistance (ouares) locus of 3.7.2C L5178Y cells to determine if presumptive chromosomal mutagens would go undetected at a gene locus that is unresponsive to chromosomal damage. A final concentration of 375 micrograms/ml ouabain in soft-agar medium selected against the ouabain-sensitive phenotype without loss of the mutagen-induced ouabain-resistant phenotype. Verification of the mutant phenotype was completed for six individual soft-agar ouares colonies derived from mutagen-treated cultures via growth for 10-11 days in nonselective medium followed by retesting for colony formation in selective soft-agar medium. Dose-related reproducible increases in the frequency of ouabain-resistant mutants were observed for 3.7.2C L5178Y cells that had been exposed for 3 hr to 24-46 micrograms/ml epichlorohydrin, 1.9-3.6 micrograms/ml iodomethane, 0.006-0.011 micrograms/ml N-methyl-N'-nitro-N-nitrosoguanidine and and 2.0-5.4 micrograms/ml methyl methanesulfonate. Also, treatments with EMS, which induced sufficient numbers of ouares colonies to permit analysis of colony size distribution, showed the existence of a bimodal size distribution similar to those reported for TK-deficient mutants. This discovery suggests that mutant colony size in this cell line may be independent of specific gene locus effects. We conclude that (1) chemicals that induce a high proportion of chromosomal mutants, as detected at the TK locus in earlier studies, also induce single gene mutations at the ouabain-resistance locus and (2) a bimodal distribution of mutant colony sizes in soft-agar medium after short expression periods may be a distinctive characteristic of the 3.7.2C L5178Y cell line and is not confined to the TK locus.