Exposures of zebrafish through diet to three environmentally relevant mixtures of PAHs produce behavioral disruptions in unexposed F1 and F2 descendant

The release of polycyclic aromatic hydrocarbons (PAHs) into the environment has increased very substantially over the last decades. PAHs are hydrophobic molecules which can accumulate in high concentrations in sediments acting then as major secondary sources. Fish contamination can occur through con...

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Veröffentlicht in:	Environmental science and pollution research international 2015-11, Vol.22 (21), p.16371-16383
Hauptverfasser:	Vignet, Caroline, Joassard, Lucette, Lyphout, Laura, Guionnet, Tiphaine, Goubeau, Manon, Le Menach, Karyn, Brion, François, Kah, Olivier, Chung, Bon-Chu, Budzinski, Hélène, Bégout, Marie-Laure, Cousin, Xavier
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Anxiety - chemically induced Aquatic Pollution Aromatase - metabolism Atmospheric Protection/Air Quality Control/Air Pollution Behavior Contaminated sediments Danio rerio Danio rerio as a Model in Aquatic Toxicology and Sediment Research Diet Earth and Environmental Science Ecology, environment Ecotoxicology Eggs Embryos Endocrine disruptors Endocrine Disruptors - toxicity Environment Environmental Chemistry Environmental Health Environmental science Estrogens Fish Gametes Genomic Imprinting - drug effects Hydrophobicity Imprinting Laboratories Larva - drug effects Larvae Life Sciences Locomotor activity Mammals Metabolites Motor Activity - drug effects Offspring Oil spills Petroleum Pollution Physiology Polycyclic aromatic hydrocarbons Polycyclic Aromatic Hydrocarbons - toxicity Sediments Studies Swimming Toxicology Waste Water Technology Water Management Water Pollutants, Chemical - toxicity Water Pollution Control Zebrafish Zebrafish Proteins - metabolism
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creator	Vignet, Caroline Joassard, Lucette Lyphout, Laura Guionnet, Tiphaine Goubeau, Manon Le Menach, Karyn Brion, François Kah, Olivier Chung, Bon-Chu Budzinski, Hélène Bégout, Marie-Laure Cousin, Xavier
description	The release of polycyclic aromatic hydrocarbons (PAHs) into the environment has increased very substantially over the last decades. PAHs are hydrophobic molecules which can accumulate in high concentrations in sediments acting then as major secondary sources. Fish contamination can occur through contact or residence nearby sediments or though dietary exposure. In this study, we analyzed certain physiological traits in unexposed fish (F1) issued from parents (F0) exposed through diet to three PAH mixtures at similar and environmentally relevant concentrations but differing in their compositions. For each mixture, no morphological differences were observed between concentrations. An increase in locomotor activity was observed in larvae issued from fish exposed to the highest concentration of a pyrolytic (PY) mixture. On the contrary, a decrease in locomotor activity was observed in larvae issued from heavy oil mixture (HO). In the case of the third mixture, light oil (LO), a reduction of the diurnal activity was observed during the setup of larval activity. Behavioral disruptions persisted in F1-PY juveniles and in their offspring (F2). Endocrine disruption was analyzed using cyp19a1b:GFP transgenic line and revealed disruptions in PY and LO offspring. Since no PAH metabolites were dosed in larvae, these findings suggest possible underlying mechanisms such as altered parental signaling molecule and/or hormone transferred in the gametes, eventually leading to early imprinting. Taken together, these results indicate that physiological disruptions are observed in offspring of fish exposed to PAH mixtures through diet.
doi_str_mv	10.1007/s11356-015-4157-8
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Behavioral disruptions persisted in F1-PY juveniles and in their offspring (F2). Endocrine disruption was analyzed using cyp19a1b:GFP transgenic line and revealed disruptions in PY and LO offspring. Since no PAH metabolites were dosed in larvae, these findings suggest possible underlying mechanisms such as altered parental signaling molecule and/or hormone transferred in the gametes, eventually leading to early imprinting. 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PAHs are hydrophobic molecules which can accumulate in high concentrations in sediments acting then as major secondary sources. Fish contamination can occur through contact or residence nearby sediments or though dietary exposure. In this study, we analyzed certain physiological traits in unexposed fish (F1) issued from parents (F0) exposed through diet to three PAH mixtures at similar and environmentally relevant concentrations but differing in their compositions. For each mixture, no morphological differences were observed between concentrations. An increase in locomotor activity was observed in larvae issued from fish exposed to the highest concentration of a pyrolytic (PY) mixture. On the contrary, a decrease in locomotor activity was observed in larvae issued from heavy oil mixture (HO). In the case of the third mixture, light oil (LO), a reduction of the diurnal activity was observed during the setup of larval activity. 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recordid	cdi_hal_primary_oai_HAL_hal_01121865v1
source	MEDLINE; SpringerLink Journals - AutoHoldings
subjects	Animals Anxiety - chemically induced Aquatic Pollution Aromatase - metabolism Atmospheric Protection/Air Quality Control/Air Pollution Behavior Contaminated sediments Danio rerio Danio rerio as a Model in Aquatic Toxicology and Sediment Research Diet Earth and Environmental Science Ecology, environment Ecotoxicology Eggs Embryos Endocrine disruptors Endocrine Disruptors - toxicity Environment Environmental Chemistry Environmental Health Environmental science Estrogens Fish Gametes Genomic Imprinting - drug effects Hydrophobicity Imprinting Laboratories Larva - drug effects Larvae Life Sciences Locomotor activity Mammals Metabolites Motor Activity - drug effects Offspring Oil spills Petroleum Pollution Physiology Polycyclic aromatic hydrocarbons Polycyclic Aromatic Hydrocarbons - toxicity Sediments Studies Swimming Toxicology Waste Water Technology Water Management Water Pollutants, Chemical - toxicity Water Pollution Control Zebrafish Zebrafish Proteins - metabolism
title	Exposures of zebrafish through diet to three environmentally relevant mixtures of PAHs produce behavioral disruptions in unexposed F1 and F2 descendant
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