Ethylene oxide: induction of specific-locus mutations in the ad-3 region of heterokaryon 12 of Neurospora crassa and implications for genetic risk assessment of human exposure in the workplace

Abstract Ethylene oxide (ETO) is an important industrial intermediate used extensively in the production of ethylene glycol, as a fumigant, and as a sterilant of choice for various medical devices. The mutagenicity of ETO was studied for the induction of specific-locus mutations in the adenine-3 ( ad-3 ) region of a two-component heterokaryon (H-12) of Neurospora crassa . The objectives of these studies with ETO were to rank its mutagenic potency and to compare its mutational spectrum for induced specific-locus mutations with other chemical mutagens in this lower eukaryotic organism. Specific-locus mutations in the ad-3 region of heterokaryon H-12 result from gene/point mutations at the closely linked ad-3A and ad-3B loci, multilocus deletion mutations and multiple-locus mutations. These major genotypic classes are similar to the types of specific-locus mutations that can be detected in higher organisms. Conidial suspensions of H-12 were treated with five different concentrations of ETO (0.1–0.35%) for 3 h at 25°C. Control and ETO-treated conidial suspensions were used to obtain dose-response curves for inactivation as well as the overall induction of ad-3 forward mutations using a non-selective method based on pigment accumulation rather than a requirement for adenine. The results from these experiments are: (1) the slope of the dose-response curve for ETO-induced specific-locus mutations in the ad-3 region is 1.49±0.07, and (2) the maximum forward-mutation frequency fell between 10 and 100 ad-3 mutations per 10 6 survivors; therefore, ETO is a moderate mutagen . Classical genetic tests were used to characterize the ETO-induced ad-3 mutations from each of two treatments (0.25 and 0.35%). The overall data base demonstrates that ETO-induced ad-3 mutations result from a high percentage (96.9%) of gene/point mutations at the ad-3A and ad-3B loci, as well as from a low percentage (3.1%) of multilocus deletion mutations. The mutagenic activity of ETO is compared with the mutagenic specificity of other chemical mutagens and carcinogens in the ad-3 forward-mutation assay in Neurospora. The utilization of the Neurospora specific-locus data on ETO and those from experiments in the mouse and Drosophila, by others, is discussed for genetic risk assessment of germ-cell effects resulting from human exposure to ETO in the workplace.