Developing the Zebrafish (Danio rerio) As a Model to Evaluate the Toxicity of Chlorinated and Non-Chlorinated Solvents Matthew Wenning Department of Bioresource Research Robert L. Tanguay Ph.D. and David E. Williams Ph.D. Department of Environmental and Molecular Toxicology
Overview What are these chemicals? Why do we care? What are the advantages of using the zebrafish? What happens to these chemicals? Methods Embryo assays and adult assay (1,2 DAB) Results Conclusion
What Are These Chemicals? Chlorinated Solvents Trichloroethylene (TCE) – (degreasing agent, polyvinylchloride) Dichloroacetic Acid (DCA)* * Metabolite of parent compound shown above it
What Are These Chemicals? Non-Chlorinated Solvents Hexane - (extractions, adhesives) 2,5-Hexanedione (2,5-HD)* 1,2-Diethylbenzene (1,2-DEB) - (fuel additive) 1,2-Diacetylbenzene (1,2-DAB)* 1,3-Diethylbenzene (1,3-DEB) 1,3-Diacetylbenzene (1,3-DAB)* * Metabolite of parent compound shown above it
Why Do We Care? Mechanism??? Neurotoxic agents Occupational exposure Environmental contamination and exposure Developmental toxicity Toxicity in adults Mechanism???
What Are the Advantages of Using the Zebrafish Embryos are transparent Embryonic development is similar between all species, especially in early stages They can be spawned and raised at a lower cost Mechanism of toxicity likely conserved between zebrafish and humans
What Happens With These Chemicals? Cytochrome P450 (CYP) CYP 2E1 Hexane 2,5-Hexanedione Neurological effects Trichloroethylene Dichloroacetic Acid CYP 2E1 Neurological effects
What Happens With These Chemicals? 1,3-DAB 1,3-DEB CYP 2E1 No Response Product forms adducts with macromolecules Molecular targets: Undefined at this point 1,2-DAB 1,2-DEB CYP 2E1
Methods Adult fish setup for spawning 15 -17 hours prior to exposure Spawning setup Recirculating system
Methods Embryos: Embryos selected for exposure Exposures started 6-8 hours post fertilization Viable embryo Non-viable embryo
Methods Embryos: Placed in 96-well (200 µL) plates One embryo per well Exposed in 100 µL of solution at various concentrations Broad range of concentrations evaluated Dimethylsulfoxide (DMSO) used as a co-solvent for non-polar solvents N = 24 for each concentration
Results Trichloroethylene Not Developmentally Toxic
Results Dichloroacetic Acid Not Highly Toxic
Results Dichloroacetic Acid Representative Images Representative images of (A) control and (B) 100 mM DCA exposed embryos. The DCA exposed larva exhibits mild pericardial edema (*) and unlike the control animals the swim bladder (sb) is not inflated.
2,5-Hexanedione Not Highly Toxic Results 2,5-Hexanedione Not Highly Toxic
Results 2,5-Hexanedione Representative Images Representative images of (A) control and (B) 10 mM 2,5-HD exposed embryos. The 2,5-HD exposed larva
Results 1,2-Diacetylbenze Toxic But Not 1,3-Diacetylbenze 1,2 DAB, but not 1,3 DAB is developmentally toxic to zebrafish. Cumulative mortality was collected for 2 days (48 hpf). A total of 24 animals were assessed for each concentration.
1,2-Diacetylbenzene Concentration-Dependent Results 1,2-Diacetylbenzene Concentration-Dependent Response 1,2 DAB developmental toxicity. Cumulative mortality was collected for 5 days (120 hpf). A total of 24 animals were assessed for each concentration, and the experiment was repeated 3 times.
Results 1,2-Diacetylbenzene Representative Images Chromogenic effect 1,2 DAB developmental toxicity. Representative images of a control and 1,2 DAB exposed embryos. Note the development of cardiovascular edema , curved body axis and the characteristic “blue” appearance.
Methods Adults: Two trials testing 1,2-diacetylbenzene (1,2-DAB) Chronic low-dose (100 ppb for 52 days) Acute high-dose (1000 ppb days for 6 days) 1,2-DAB solvated in dimethylsulfoxide (DMSO) DMSO concentration in exposure and control groups was 0.1%
Control and dosing solutions prepared and changed daily Methods Control and dosing solutions prepared and changed daily
Methods Placed in 600 ml of solution Each zebrafish placed in individual tank
Methods Each trial contained two groups Control and experimental groups N=4 Transfer to clean 10 gallon tank for behavioral observation
Representative Images Of Adults Results Representative Images Of Adults Control (top) and 1,2 DAB (bottom) adult fish image three days post exposure. It was a dramatic blue appearance of the 1,2 DAB exposed fish. The appearance of the blue correlated with behavioral and motor deficits.
Conclusion Trichloroethylene is not developmentally toxic under these conditions Dichloroacetic acid is not developmentally toxic under these conditions 2,5-Hexanedione is not developmentally toxic under these conditions 1,3-Diacetylbenzene showed no toxic response 1,2-Diacetylbenzene is developmentally toxic
Conclusion Similar responses in zebrafish as in mammals with 1,2-DAB Zebrafish can be used as a model to evaluate toxicity of these compounds Future studies can be done to determine “how” the chemicals produce toxicity
Acknowledgements Robert L. Tanguay Ph.D. Stacey Harper Ph.D. Ms. Jane La Du Mr. Lijoy K. Mathew Ms. Sumitra Sengupta Ms. Crystal Usenko Ms. Lisa Duong Ms. Kate Saili David E. Williams Ph.D. Katherine G. Field Ph.D. Ms. Wanda K. Crannell M.S. Tanguay Lab
Questions?
Proposed Mechanism for 1,2-DAB