Toxicity and Transcriptomic Analysis in Hyalella azteca Suggests

Jul 26, 2013 - Nanoparticles (NPs) are expected to make their way into the aquatic environment where sedimentation of particles will likely occur, put...
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Toxicity and transcriptomic analysis in Hyalella azteca suggests increased exposure and susceptibility of epibenthic organisms to Zinc Oxide Nanoparticles Helen C. Poynton, James M. Lazorchak, Christopher Allen Impellitteri, Bonnie J. Blalock, Mark E. Smith, Katherine Struewing, Jason M Unrine, and Deborah Roose Environ. Sci. Technol., Just Accepted Manuscript • DOI: 10.1021/es401396t • Publication Date (Web): 26 Jul 2013 Downloaded from http://pubs.acs.org on July 28, 2013

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Environmental Science & Technology Poynton et al., ZnO NP exposure to H. azteca

Title: Toxicity and transcriptomic analysis in Hyalella azteca suggests increased exposure and susceptibility of epibenthic organisms to Zinc Oxide Nanoparticles. Helen C. Poynton1,*, James M. Lazorchak2, Christopher A. Impellitteri2, Bonnie Blalock1, Mark E. Smith3, Katherine Struewing3, Jason Unrine4, Deborah Roose2 1

School for the Environment, University of Massachusetts, Boston, Boston MA U.S. Environmental Protection Agency, Office of Research and Development, Cincinnati, OH 3 McConnell Group, Cincinnati OH 4 Department of Plant and Soil Sciences, University of Kentucky, Lexington, KY 2

*

To whom correspondence should be addressed: Helen C. Poynton School for the Environment Univ. of Massachusetts, Boston Boston, MA 02125 [email protected] Total word count: 5157 + 1800 (tables and figures) = 6957 words Abstract: Nanoparticles (NPs) are expected to make their way into the aquatic environment where sedimentation of particles will likely occur, putting benthic organisms at particular risk. Therefore, organisms such as Hyalella azteca, an epibenthic crustacean which forages at the sediment surface, is likely to have a high potential exposure. Here we show that Zinc Oxide (ZnO) NPs are more toxic to H. azteca compared with the corresponding metal ion, Zn2+. Dissolution of ZnO NPs contributes about 50% of the Zn measured in the ZnO NP suspensions, and cannot account for the toxicity of these particles to H. azteca. However, gene expression analysis is unable to distinguish between the ZnO NP exposures and Zinc Sulfate (ZnSO4) exposures at equitoxic concentrations. These results lead us to hypothesize that ZnO NPs provide and an enhanced exposure route for Zn2+ uptake into H. azteca, and possibly other sediment dwelling organisms. Our study supports the prediction that sediment dwelling organisms are highly susceptible to the effects of ZnO NPs and should be considered in the risk assessment of these nanomaterials. 1 ACS Paragon Plus Environment

Environmental Science & Technology Poynton et al., ZnO NP exposure to H. azteca

Introduction: The past decade has seen exponential growth in nanotechnology raising concerns that the production of new nanoparticles is surpassing our ability to assess their potential environmental risks (www.nanotechproject.org).

Nanoparticles (NPs) are defined as supra-molecular

compounds in the “nano” range (having one at least one dimension