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Mixture toxicity effects and uptake of titanium dioxide (TiO2) nanoparticles and 3,3 ',4,4 '-tetrachlorobiphenyl (PCB77) in juvenile brown trout following co-exposure via the diet

Journal article
Authors Tobias Lammel
Britt Wassmur
A. Mackevica
C. E. L. Chen
Joachim Sturve
Published in Aquatic Toxicology
Volume 213
ISSN 0166-445X
Publication year 2019
Published at Department of Biological and Environmental Sciences
Language en
Links dx.doi.org/10.1016/j.aquatox.2019.0...
Keywords Nanomaterial, Metal oxide, Fish, Accumulation, Co-contaminant, Persistent organic pollutant, adverse reproductive outcomes, aryl-hydrocarbon receptor, messenger-rna, expression, tight junction proteins, polychlorinated-biphenyls, oxidative stress, rainbow-trout, trophic transfer, bisphenol-a, engineered nanoparticles, Marine & Freshwater Biology, Toxicology, rlin l, 1984, marine environmental research, v14, p47
Subject categories Biological Sciences

Abstract

Titanium dioxide nanoparticles (n-TiO2) are among the man-made nanomaterials that are predicted to be found at high concentrations in the aquatic environment. There, they likely co-exist with other chemical pollutants. Thus, n-TiO2 and other chemical pollutants can be taken up together or accumulate independently from each other in prey organisms of fish. This can lead to dietary exposure of fish to n-TiO2-chemical pollutant mixtures. In this study, we examine if simultaneous dietary exposure to n-TiO2 and 3,3',4,4'-Tetrachlorobiphenyl (PCB77)-used as a model compound for persistent organic pollutants with dioxin-like properties-can influence the uptake and toxicological response elicited by the respective other substance. Juvenile brown trout (Salmo trutta) were fed custom-made food pellets containing n-TiO2, PCB77 or n-TiO2+PCB77 mixtures for 15 days. Ti and PCB77 concentrations in the liver were measured by ICP-MS and GC-MS, respectively. Besides, n-TiO2 uptake was assessed using TEM. Combination effects on endpoints specific for PCB77 (i.e., cytochrome P450 1A (CYP1A) induction) and endpoints shared by both PCB77 and n-TiO2 (i.e., oxidative stress-related parameters) were measured in intestine and liver using RT-qPCR and enzyme activity assays. The results show that genes encoding for proteins/enzymes essential for tight junction function (zo-1) and ROS elimination (sod-1) were significantly upregulated in the intestine of fish exposed to n-TiO2 and PCB77 mixtures, but not in the single-substance treatments. Besides, n-TiO2 had a potentiating effect on PCB77-induced CYP1A and glutathione reductase (GR) expression/enzyme activity in the liver. This study shows that simultaneous dietary exposure to nanomaterials and traditional environmental pollutants might result in effects that are larger than observed for the substances alone, but that understanding the mechanistic basis of such effects remains challenging.

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