Relationship between visible and heritable chromosome damage in trout cells and embryos

Abstract

The disruption of chromosome segregation which is detected visually by the anaphase aberration (aa) test suggests that unequal amounts of DNA are distributed to daughter cells and possibly to subsequent cell generations. To investigate this possibility trout cell cultures and trout embryos (blastodisc) were exposed to benzo[ a]pyrene (B[ a]P) and the nitrosamide, MNNG, respectively. They were then examined by flow cytometry to determine if anaphase damage resulted in unequal DNA distribution to daughter cells. Both B[ a]P and MNNG produced a significant increase (P < 0·01) in aa in cultured cells after 48 h exposure. These values returned to normal by 10 days in the absence of the genotoxic agents, except for the highest concentration (0·5 μg/ml MNNG), which showed only a 50% recovery by that time. Likewise, the coefficient of variation (CV) of nuclear DNA content of the cells also rose significantly after treatment and remained elevated for as long as 14 days following exposure. Experiments with rainbow trout embryos also showed a significant increase in both aa and CV following exposure to MNNG. Flow cytometric analysis of DNA content of trout cells and embryos following exposure to mutagens showed an unequal distribution of DNA that was transmissible through several cell generations. These findings indicate that visible anaphase aberrations could predict heritable genetic defects such as those associated with aneuploidy.