Journal
ENVIRONMENTAL SCIENCE & TECHNOLOGY
Volume 44, Issue 21, Pages 8314-8321Publisher
AMER CHEMICAL SOC
DOI: 10.1021/es101902n
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Funding
- EJLB Foundation, Genome BC
- Natural Sciences and Engineering Research Council (NSERC)
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Nanometals are manufactured to particle sizes with diameters in the nanometer range and are included in a variety of consumer and health products. There is a lack of information regarding potential effects of these materials on aquatic organisms. Amphibians are regarded as environmental sentinels and demonstrate an exquisite sensitivity to thyroid hormone action, a hormone that is essential for human health. This present study assessed the effect of exposure to nanometals on stress and thyroid hormone signaling in frog tissue using a cultured tail fin biopsy (C-fin) assay derived from Rana catesbeiana tadpoles. The C-fin assay maintains tissue complexity and biological replication while multiple chemical responses can be assessed from the same individual. We tested the ability of nanosilver (0.06 mu g/L-5.5 mg/L), quantum dots (0.25 mu g/L-22 mg/L), and nanozinc oxide (0.19-10 mg/L) to alter gene expression in the presence or absence of 3,3',5'-triiodothyronine (T-3) using quantitative real-time polymerase chain reaction. Results were compared to exposure to micrometer-silver, silver nitrate, and micrometer-cadmium telluride. Nanosilver (>= 2.75 mg/L) and quantum dots (>= 0.22 mg/L) altered the expression of transcripts linked to T-3- and stress-mediated pathways, while nanozinc oxide had no effect Lower concentrations of nanosilver (0.6 to 550 mu g/L) perturbed T-3-mediated signaling while not inducing cell stress. The observed effects were orders of magnitude below acute toxicity levels and occurred at or below the current North American water quality guidelines for metals, underscoring the need for evaluating nanoparticles separately from their constituent chemicals.
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