A comparison of the ability of frog and rat S-9 to activate promutagens in the Ames test

In vitro activation of chemicals by plants: a comparison of techniques

We have studied the ability of two in vitro plant activation techniques to enhance the mutagenicity of 4-nitro-o-phenylenediamine (NOP) and to activate 2-aminofluorene (2AF). Mutagenic activities of NOP and 2AF were both increased by plant S9 in the Salmonella plate-incorporation and preincubation assays. They were also increased during preincubation with intact plant cells. NOP mutagenic activity was enhanced to a similar extent by plant S9 and by intact plant cells in Salmonella assay, whereas 2AF was activated more extensively by the plant cells than by plant S9. NOP was not enhanced by mammalian hepatic S9 in any assay, whereas 2AF was activated by hepatic S9 under all conditions tested.

In vitro activation of the promutagens 2-acetamidofluorene, cyclophosphamide and 7,12-dimethylbenzanthracene by constitutive ferret and rat hepatic S-9 fractions

The ability of the ferret to metabolically activate promutagenic compounds was compared with that of the rat, using the Salmonella/microsome assay. Three compounds which require biotransformation to mutagenic metabolites, 2-acetamidofluorene (2-AAF), cyclophosphamide (CPA), and 7,12-dimethylbenzanthracene (DMBA), were studied. Metabolic activation was provided by ferret or rat hepatic S-9 fractions at 5 levels for each chemical, and optimal S-9 levels as well as dose-response curves were obtained. Interspecies mutagenic activity was quantitated on the basis of mg liver, mg S-9 protein, and nmoles P-450. The slopes of the dose-response curves and the lowest chemical dose required for a significant response were also compared. Although constitutive levels of rat hepatic cytochrome P-450 were shown to be higher than those of the ferret, in vitro mutagenic activation by ferret S-9, at S-9 levels which caused activation in both species, was greater than or equivalent to activation by rat S-9 for these chemicals, based on all parameters studied. The results showed that the equilibrium between activation and detoxification reactions is dependent upon the chemical dose and S-9 level present.

Assessment of mutagenic damage by monofunctional alkylating agents and gamma radiation in haploid and diploid frogs, Xenopus laevis

Adult male South African clawed frogs, Xenopus laevis, were mutagenized by 3-day immersion in aqueous solutions of ethyl methanesulfonate (EMS), diethyl nitrosamine (DEN), or ethyl nitrosourea (ENU), or by acute exposure to gamma radiation. They were then spawned repeatedly at 2-week intervals with untreated females, and embryonic survival of the progeny was used to assess genetic damage. Recessive lethal effects were assessed from reduced survival of androgenetic haploid progeny. Neither recessive nor dominant lethal effects were obtained after exposure to 100 mg/liter EMS or 2 g/liter DEN. At 250 mg/liter EMS, peak dominant lethality occurred 3-5 wk after treatment. Most embryos hatched, but many were abnormal and died shortly after hatching. Haploid survival was significantly reduced over a broader period, from 1 to 13 wk after mutagenesis. Treatment with 75 mg/liter ENU produced effects similar to the 250-mg/liter EMS mutagenesis. At 400 mg/liter EMS, the frequency and severity of the effects on both diploid and haploid embryos were increased over the lower dose. Gamma irradiation at 1,500 R produced effects similar to the 400-mg/liter mutagenesis, except that peak dominant lethality extended from 1 to 7 wk.

Dominant lethality in Xenopus laevis induced with triethylenemelamine (TEM)

Adult male South African clawed toads, Xenopus laevis, were injected intraperitoneally with triethylenemelamine (TEM) dissolved in water over a dose range of 13-1,300 micrograms/kg or with water (controls). Mating of the treated males with untreated females was induced seven days later by injection of human chorionic gonadotropic hormone (HCG). Accumulated lethality one week after fertilization among progeny was dose related. Morphological abnormalities among embryos that survived to hatching were similarly dose related. Because anatomically anomalous embryos may have impaired behavior, swimming capacity was tested, and anomalies in swimming behavior were also found to be dose related. Finally, short-term cell cultures were made on minced embryos to obtain chromosome spreads. Structural aberrations, rings, dicentrics, etc of somatic chromosomes were also dose related.