The vas::egfp transgenic zebrafish (Danio rerio) could significantly enhance studies on the mechanisms by which environmental estrogens disrupt sexual differentiation, because the developing gonad can be visualized during early life via fluorescence detection. There are methodological challenges regarding dissecting out the gonads in early-life-stage fish, however, and transgene responses to estrogen exposure have not been tested. The authors exposed vas::egfp transgenic zebrafish and their wild-type siblings to the model estrogen 17α-ethinylestradiol (EE2; 0.62 ng/L and 3.33 ng/L measured concentrations) during sexual development (20-60 d posthatch) and used enhanced green fluorescent protein (egfp) fluorescence to identify and dissect single gonads (at 40 d posthatch) to provide sufficient RNA for individual gene expression analyses, retaining the remaining gonad in the body cavity for histological analyses of sex and stage of development. Genotyping confirmed that all transgenic control fish were phenotypically egfp positive (showed green fluorescence). Interestingly, however, in a few transgenic fish exposed to EE2, no phenotypic egfp signal was seen, most notably for the 3.33 ng/L EE2 exposure. It was subsequently found that gonadal vasa expression was reduced by this concentration of EE2. Hepatic vitellogenin expression demonstrated that the vas::egfp and wild-type lines responded to estrogen with an equivalent sensitivity. The authors conclude that the vas::egfp zebrafish provides an enhanced and practical system for mechanistic studies on the effects of environmentally relevant concentrations of estrogens on gonad development.
Keywords: Environmental estrogen; Gene expression; Sexual differentiation; Transgenic; vasa.
© 2013 SETAC.