Antioxidant responses and NRF2 in synergistic developmental toxicity of PAHs in zebrafish

doi:10.1093/toxsci/kfp038

ToxSci Advance Access published online on February 20, 2009
Toxicological Sciences, doi:10.1093/toxsci/kfp038

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Antioxidant responses and NRF2 in synergistic developmental toxicity of PAHs in zebrafish

Alicia R. Timme-Laragy^*^,, Lindsey A. Van Tiem^*, Elwood A. Linney^*^, and Richard T. Di Giulio^*

^* Integrated Toxicology and Environmental Health Program, Nicholas School of the Environment, Duke University, Durham, NC, USA 27708 Department of Molecular Genetics and Microbiology, Duke University Medical Center, Durham, NC, USA 27710

Corresponding Author: Richard T. Di Giulio, Duke University, Research Drive, Levine Science Research Center, Room A346, Durham, NC 27708-0328. Telephone: 919-613-8024 Fax: 919-668-1799, Email: richd{at}duke.edu.

Received December 16, 2008; revision received February 4, 2009; accepted February 4, 2009

Abstract

Early piscine life-stages are sensitive to polycyclic aromatichydrocarbon (PAH) exposure, which can cause pericardial effusionand craniofacial malformations. We previously reported thatcertain combinations of PAHs cause synergistic developmentaltoxicity, as observed with co-exposure to the aryl hydrocarbonreceptor (AHR) agonist β-naphthoflavone (BNF) and cytochromeP4501A inhibitor ${alpha}$ -naphthoflavone (ANF). Herein, we hypothesizedthat oxidative stress is a component of this toxicity. We examinedinduction of antioxidant genes in zebrafish embryos (Danio rerio)exposed to BNF or ANF individually, a BNF+ANF combination, anda pro-oxidant positive control, tert-butylhydroperoxide (tBOOH).We measured total glutathione, and attempted to modulate deformitiesusing the glutathione synthesis inhibitor buthionine sulfoxamine(BSO) and increase glutathione pools with N-acetyl cysteine(NAC). In addition, we used a morpholino to knockdown expressionof the antioxidant response element transcription factor NRF2to determine if this would alter gene expression or increasedeformity severity. BNF+ANF co-exposure significantly increasedexpressions of superoxide dismutase1 and2, glutathione peroxidase1, pi class glutathione-s-transferase, and glutamate cysteine-ligaseto a greater extent than tBOOH, BNF, or ANF alone. BSO pretreatmentdecreased some glutathione levels, but did not worsen deformities,nor did NAC diminish toxicity. Knockdown of NRF2 increased mortalityfollowing tBOOH challenge, prevented significant upregulationof antioxidant genes following both tBOOH and BNF+ANF exposures,and exacerbated BNF+ANF-related deformities. Collectively, thesefindings demonstrate that antioxidant responses are a componentof PAH synergistic developmental toxicity, and that NRF2 isprotective against prooxidant and PAH challenges during development.

Key Words: PAH; NRF2; redox; ROS; embryonic development; glutathione.

Present address: Biology Department, Woods Hole OceanographicInstitute, Woods Hole, MA, USA 02543

Other author email addresses: Alicia Timme-Laragy: Alicia{at}whoi.edu.Lindsey Van Tiem: lav3{at}duke.edu

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