1. Characterization of the morphological, phenotypic, and molecular effects of 17α- ethynylestradiol exposure during early development in Xenopus laevis Amber Tompsett, Steve Wiseman, Eric Higley, Hong Chang John P. Giesy, and Markus Hecker SETAC North America Annual Meeting Portland, OR, USA November 7-11, 2010 Toxicology Centre, University of Saskatchewan

2. Introduction Estrogenic chemicals in the environment – Exposure hypothesized to cause adverse effects Feminization/demasculinization of males – Wide variety of species are affected by exposure 17α-ethynylestradiol (EE2) – Potent estrogen of environmental concern – Present in oral contraceptives Not fully removed by conventional sewage treatment Detectable in surface water

3. Introduction Xenopus laevis – Common laboratory amphibian – Exquisitely sensitive to estrogenic exposures during sexual differentiation Male-to-female phenotypic sex reversal Recently discovered sex-linked gene EE2 and X. laevis used as model systems – Morphological and phenotypic effects of EE2 exposure – Molecular effects underlying sex reversal

4. Experimental design Dosing Regime* – FETAX control and 0.0025% ethanol solvent control – 0.1, 1, and 10 µg/L EE2 Tadpole samples – Near sexual differentiation Experiment terminated at 96 d – Morphometrics and phenotyping – Molecular samples – Histological samples *Estrogen equivalent concentrations in surface water normally range from 3-30 ng/L

5. Days to Metamorphosis Survival analysis followed by ANOVA, post-hoc Tukey’s test; significant differences (p<0.05) denoted by different letters a a b b b

6. Phenotyping: Gross Morphology a a b b b Fisher’s Exact Tests; significant differences denoted by different letters

7. DM-W Based Genotypic Sexing X. laevis has ZW chromosomal sex determination – ZW female; ZZ male – DM-W resides on the W chromosome Multiplex DM-W/DMRT1 PCR genotyping – Genomic DNA – PCR products visualized on a gel ♀ ♂ DM-W DMRT1

8. Genotypic Sex Ratios *Initial data from a subsample of EE2 treated animals.

9. Initial Comparison of Genotyping and Phenotyping

10. 2 O 1 O 3 T T 1.Genetic female 2.Sex-reversed genetic male 3.Genetic male Gross Phenotypic Morphology

11. Transcriptome Analysis Nieukwoop-Faber Stage 53 Tadpoles – Undergoing sexual differentiation – Control and 100 µg/L EE2 treated animals Male genotype Illumina Sequencing – RNA Seq – Single-end read – 75 bp read length

12. Initial Transcriptome Analysis CLC Genomics Workbench – Reads filtered and trimmed – Mapped to X. laevis published mRNAs – Expression analysis General Statistics – 70% of reads mapped to an mRNA transcript – 95% of transcripts were detected at least once

13. Transcriptome Analysis Overview of changes 73% 12% 15% 22 genes upregulated at least 15-fold 66 genes downregulated at least 15-fold

14. Types of Genes Impacted Up-regulated – Estrogen/steroid hormone metabolism – Cardiac/skeletal muscle contraction and growth – DNA repair Down-regulated – Redox metabolic activity – Axonogenesis and synaptogenesis – Metabolism of neurotransmitters

15. Potential Genes of Interest GeneFold Change Estrogen sulfotransferase (sult1e1)+19 Frizzled-related protein (frzb-1)+24 Troponin T Type 3 (tnnt3)+37 Cu-Zn superoxide dismutase (sod)-23 Synaptosomal associated protein 25 (snap-25) -85 Sulfotransferase 4a1 (sult4a1)-23

16. Biological Relevance of EE2 Exposure Male-to-female sex reversal May impact individual fitness – Delayed metamorphosis and smaller size Changes in the male transcriptome at sexual differentiation – Estrogen/hormone metabolism – Other processes

17. Additional Ongoing Analysis Histology of gonads – Gross morphology of small animals unclear Parallel wood frog experiment – Native, non-model species

18. Acknowledgements Toxicology Centre – ETL and ATRF – Jon Doering – Jason Raine Canada Research Chairs Program

19. Froglet Weight at Termination Note: There were no significant differences in length at termination a ab bc

20. Ambiguous Phenotype 1 2 1.EE2 Treated Genetic Male – Segmented Testes 2.Control Genetic Female – Ambiguous ovary T T O

21. Summary of Results Morphometrics – Metamorphosis of EE2 exposed tadpoles was delayed – EE2 exposed froglets tended to be smaller at termination Phenotypic Sex – Phenotypic sex ratios were female biased in all EE2 treatments – 10 µg/L EE2 impaired sexual development of all genetic males Genotypic Sex – Initial results indicate sex ratios are constant across treatments – Definitive identification of sex reversed genetic males Transcriptomics – Of detected transcripts, 28% impacted by EE2 exposure Up- or down-regulated by at least 2-fold – Various biological processes impacted, including estrogen metabolism