Genetic analysis of ad-3 mutants induced by AF-2 and two other nitrofurans in Neurospora crassa

Quantitative and qualitative comparison of spontaneous and chemical-induced specific-locus mutation in the ad-3 region of heterokaryon 12 of Neurospora crassa

The data from forward-mutation experiments to obtain specific-locus mutations at two closely linked loci in the adenine-3 (ad-3) region of heterokaryon 12 (H-12) of Neurospora crassa have been tabulated to determine the relative frequencies and mutational spectra of ad-3 mutants occurring spontaneously and those induced by 22 different chemical treatments. Previous studies have demonstrated that specific-locus mutations at these two loci result from 5 major genotypic classes, namely two classes of gene/point mutations (ad-3AR and ad-3BR), and 3 classes of multilocus deletion mutations ([ad-3A]IR, [ad-3B]IR and [ad-3A ad-3B]IR). In addition, prior studies have demonstrated that some chemical mutagens induced ad-3 mutants exclusively, or almost exclusively, by gene/point mutation and other chemical mutagens by gene/point mutation and multilocus deletion mutation. In the latter cases, there was wide variation in the percentages of ad-3 mutants in these 5 major genotypic classes. Two comparative methods of analysis that also were used to compare spontaneous and chemical-induced ad-3 mutational spectra included X2-tests on the numbers of ad-3 mutants resulting in the following two sets of ratios: (1) gene/point mutations and multilocus deletion mutations; and (2) complementing and non-complementing ad-3BR, mutants. Combination of the p-values from X2-tests for these two methods of comparison demonstrated that all 22 chemicals induce a spectrum of ad-3 mutants that is qualitatively different from that occurring spontaneously. In addition, these same two methods of comparison have been used to compare the mutagenic effects of each of the 22 chemical treatments with each other. Combination of the data from these two methods of comparison has demonstrated that 93.1% (215/231) of the pairwise combinations of these 22 chemicals were different from each other. The implication of these experimental data on the induction of specific-locus mutations in somatic cells of Neurospora for genetic risk assessment exercises is discussed.

Comparison of the spectra of genetic damage in N4-hydroxycytidine-induced ad-3 mutations between nucleotide excision repair-proficient and -deficient heterokaryons of Neurospora crassa

A comparison has been made of the mutagenic effects of N4-hydroxycytidine (HC) in the adenine-3 (ad-3) region of two-component heterokaryons of Neurospora crassa: nucleotide excision repair-proficient (uvs-2+/uvs-2+) heterokaryon 12 (H-12) and nucleotide excision repair-deficient (uvs-2/uvs-2) heterokaryon 59 (H-59). HC was found to produce mutations predominantly, if not exclusively, by AT to GC base-pair transitions in Escherichia coli strain K12 by Janion and Glickman (1980, Mutation Res., 72, 43-47) and Sledziewska-Gojska et al. (1992, Mutagenesis, 7, 41-46). The ad-3 forward-mutation, specific-locus assay system permits the recovery of ad-3A and/or ad-3B mutants resulting from gene/point mutation, multiple-locus mutation, and multilocus deletion mutation. Uvs-2, which is homokaryotic in H-59, results in a recovery of HC-induced ad-3 forward mutations at a frequency in H-59 that is comparable to that found in H-12. Genetic analysis of ad-3 mutants recovered from experiments with HC treatment demonstrates that predominantly gene/point mutations were found in both strains: 99.3% (540/544) in H-12, and 97.4% (531/545) in H-59. Genetic analysis of allelic complementation among the ad-3BR mutations demonstrated that HC induced the highest percentage of complementing mutants ever found with base analogs both in H-12 (99.7% [328/329]) and H-59 (91.2% [290/318]). As a result of these findings, the majority of HC-induced ad-3 mutations are postulated to have resulted from missense mutations. Thus, we conclude that the results in Neurospora are consistent with the observations in E. coli strain K-12, where HC induces predominantly AT to GC base-pair transitions.

Utilization of the specific-locus assay in the ad-3 region of two-component heterokaryons of Neurospora for risk assessment of environmental chemicals

The utilization of the specific-locus assay in the ad-3 region of two-component heterokaryons of Neurospora crassa is compared with that of other eukaryotic assay systems for the evaluation of the mutagenic effects of environmental chemicals. In contrast to other in vitro specific-locus assays, the Neurospora assay can detect mutations not only at the ad-3A and ad-3B loci but also recessive lethal mutations elsewhere in the genome. Mutational damage in this system can be characterized readily by means of classical genetic techniques involving heterokaryon tests to determine genotype, and allelic complementation among ad-3BR mutations. The percentages of ad-3BR mutations showing allelic complementation with polarized or nonpolarized complementation patterns provide a presumptive identification of the genetic alterations at the molecular level in individual mutants. Dikaryon and trikaryon tests (using 3 strains carrying multilocus deletion mutations as tester strains) distinguish ad-3 mutations resulting from gene/point mutation, multilocus deletion mutation, and various types of multiple-locus mutation. The array of ad-3 mutations recovered from forward-mutation experiments can be expressed in terms of Mutational Spectra, which make it possible to make comparisons of mutational types between different doses of the same mutagen, different mutagens, or the effects of the same mutagen on different strains. Another important feature of this specific-locus assay system is that the effects of mutagens can be studied in both DNA excision repair-proficient (H-12) and -deficient (H-59) two-component heterokaryons to evaluate both quantitative and qualitative differences between the spectra of induced ad-3 mutations. The utilization of this assay on large numbers of environmental chemicals has shown that some chemicals produce predominantly, or exclusively, gene/point mutations, whereas other agents produce both gene/point mutations and multilocus deletion mutations in H-12. When the mutagenic effects of the same chemicals were compared in H-12 and H-59, marked differences between forward-mutation frequencies and Mutational Spectra of ad-3 mutations were detected.

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.

Mutagenic potency and specificity of procarbazine in the ad-3 forward-mutation test in growing cultures of heterokaryon 12 of Neurospora crassa

Procarbazine (Natulan) was tested for its mutagenic potency and specificity in the ad-3 forward-mutation test in heterokaryon 12 (H-12) of Neurospora crassa. In these experiments, procarbazine was a weak mutagen when present in growing cultures but nonmutagenic when conidial suspensions (nongrowing conidia) were treated. A total of 208 ad-3 mutants recovered after exposure of growing cultures of H-12 to 1 mg of procarbazine/ml, and 2 ad-3 mutants of spontaneous origin, were characterized genetically. These tests distinguish among gene/point mutations (ad-3R) at the ad-3A or ad-3B locus, multilocus deletion mutations ([ad-3]IR) covering one or more loci in the ad-3 and immediately adjacent regions, and 3 different classes of multiple-locus mutations: gene/point ad-3 mutations with a recessive lethal mutation elsewhere in the genome (ad-3R + RL), gene/point mutations with a closely linked recessive lethal mutation (ad-3R + RLCL), and multilocus deletion mutations with a closely linked recessive lethal mutation ([ad-3]IR + RLCL). All of the procarbazine-induced ad-3 mutants resulted from gene/point mutations; 92.2% (200/217) resulted from gene/point mutations at the ad-3A or ad-3B locus, and 3.7% (8/217) resulted from gene/point mutations with a recessive lethal mutation elsewhere in the genome. Identical percentages (15.4% [20/130] and 15.4% [12/78]) of the sigma ad-3BR and sigma ad-3AR mutants were leaky, and a high percentage (71.5% [93/130]) of the sigma ad-3BR mutants had nonpolarized complementation patterns. These results indicate that procarbazine-induced ad-3 mutants of Neurospora crassa are composed solely of gene/point mutations (ad-3R) that resulted, predominantly or exclusively, from base-pair substitutions. The Neurospora specific-locus data on procarbazine-induced ad-3 mutants are compared with data from similar experiments with the mouse using the morphological specific-locus assay; marked similarities were found between the mutagenic effects of procarbazine in the 2 specific-locus assays.

High proportion of multi-locus deletions among hycanthone-induced X-linked recessive lethals in Drosophila melanogaster

328 X-linked recessive lethal mutations induced in late spermatids by hycanthone methanesulfonate were tested for coverage by duplications that comprised, in total, about 24% of the euchromatic X chromosome; 78 lethals appeared to be covered. Crossover localization tests of a random sample of 38 non-covered lethals revealed 4 chromosomes carrying a lethal within a duplicated segment. Lethals localized to a particular region were crossed to reference deficiencies and single-locus mutations, and inter se, to ascertain their genetic extent. The proportion of multi-locus deletions among these 78 covered and 4 non-covered lethals was 3/48, 1/10 and 13/24 for the distal, medial and proximal regions, respectively. A storage period of 9 days did not noticeably influence these proportions. In the sample of 38 non-covered lethals, and among 17 of the covered single-site lethals, 4 cases of strong crossover suppression were detected. Comparison of these results with data obtained with other mutagens suggests that induction of multi-locus deletions, and possibly of other types of chromosome rearrangement, could in part depend on other mechanisms than those acting in the formation of translocations and chromosome loss. For the purpose of mutagen testing, these findings imply that, in Drosophila, results in the regular genetic tests for chromosome breakage events do not always accurately predict the capacity of a mutagen to induce multi-locus deletions. This is of importance since transmissible multi-locus deletions have been considered a significant source of genetic damage in man.