Uptake and effects of graphene oxide nanomaterials alone and in combination with polycyclic aromatic hydrocarbons in zebrafish

Uptake and effects of graphene oxide nanomaterials alone and in combination with polycyclic aromatic hydrocarbons in zebrafish

Because of its surface characteristics, once in the aquatic environment, graphene could act as a carrier of pollutants, such as polycyclic aromatic hydrocarbons (PAHs), to aquatic organisms. In this study we aimed to (1) assess the capacity of graphene oxide (GO) to sorb PAHs and (2) to evaluate the...

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Veröffentlicht in:The Science of the total environment 2021-06, Vol.775, p.145669, Article 145669
Hauptverfasser: Martínez-Álvarez, Ignacio, Le Menach, Karyn, Devier, Marie-Hélène, Barbarin, Iranzu, Tomovska, Radmila, Cajaraville, Miren P., Budzinski, Hélène, Orbea, Amaia
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Adsorption
Animals
Aquatic nanotoxicity
Carbon based nanomaterials
Environmental Sciences
Graphite - toxicity
Nanostructures
North Sea
Organic pollutants
Polycyclic Aromatic Hydrocarbons - analysis
Polycyclic Aromatic Hydrocarbons - toxicity
Water Pollutants, Chemical - toxicity
Zebrafish
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container_issue
container_start_page 145669
container_title The Science of the total environment
container_volume 775
creator Martínez-Álvarez, Ignacio
Le Menach, Karyn
Devier, Marie-Hélène
Barbarin, Iranzu
Tomovska, Radmila
Cajaraville, Miren P.
Budzinski, Hélène
Orbea, Amaia
description Because of its surface characteristics, once in the aquatic environment, graphene could act as a carrier of pollutants, such as polycyclic aromatic hydrocarbons (PAHs), to aquatic organisms. In this study we aimed to (1) assess the capacity of graphene oxide (GO) to sorb PAHs and (2) to evaluate the toxicity of GO alone and in combination with PAHs on zebrafish embryos and adults. GO showed a high sorption capacity for benzo(a)pyrene (B(a)P) (98% of B(a)P sorbed from a nominal concentration of 100 μg/L) and for other PAHs of the water accommodated fraction (WAF) of a naphthenic North Sea crude oil, depending on their log Kow (95.7% of phenanthrene, 84.4% of fluorene and 51.5% of acenaphthene). In embryos exposed to different GO nanomaterials alone and with PAHs, no significant mortality was recorded for any treatment. Nevertheless, malformation rate increased significantly in embryos exposed to the highest concentrations (5 or 10 mg/L) of GO and reduced GO (rGO) alone and with sorbed B(a)P (GO-B(a)P). On the other hand, adults were exposed for 21 days to 2 mg/L of GO, GO-B(a)P and GO co-exposed with WAF (GO + WAF) and to 100 μg/L B(a)P. Fish exposed to GO presented GO in the intestine lumen and liver vacuolisation. Transcription level of genes related to cell cycle regulation and oxidative stress was not altered, but the slight up-regulation of cyp1a measured in fish exposed to B(a)P for 3 days resulted in a significantly increased EROD activity. Fish exposed to GO-B(a)P and to B(a)P for 3 days and to GO + WAF for 21 days showed significantly higher catalase activity in the gills than control fish. Significantly lower acetylcholinesterase activity, indicating neurotoxic effects, was also observed in all fish treated for 21 days. Results demonstrated the capacity of GO to carry PAHs and to exert sublethal effects in zebrafish. [Display omitted] •Graphene oxide showed a high capacity to sorb PAHs depending on their hydrophobicity.•Graphene oxide alone or with PAHs caused malformations in zebrafish embryos.•Adult and embryo zebrafish ingested graphene oxide.•Sublethal effects provoked by graphene oxide included neurotoxicity.•Graphene oxide with sorbed PAHs caused oxidative stress in the gills.
doi_str_mv 10.1016/j.scitotenv.2021.145669
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Fish exposed to GO presented GO in the intestine lumen and liver vacuolisation. Transcription level of genes related to cell cycle regulation and oxidative stress was not altered, but the slight up-regulation of cyp1a measured in fish exposed to B(a)P for 3 days resulted in a significantly increased EROD activity. Fish exposed to GO-B(a)P and to B(a)P for 3 days and to GO + WAF for 21 days showed significantly higher catalase activity in the gills than control fish. Significantly lower acetylcholinesterase activity, indicating neurotoxic effects, was also observed in all fish treated for 21 days. Results demonstrated the capacity of GO to carry PAHs and to exert sublethal effects in zebrafish. 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Fish exposed to GO presented GO in the intestine lumen and liver vacuolisation. Transcription level of genes related to cell cycle regulation and oxidative stress was not altered, but the slight up-regulation of cyp1a measured in fish exposed to B(a)P for 3 days resulted in a significantly increased EROD activity. Fish exposed to GO-B(a)P and to B(a)P for 3 days and to GO + WAF for 21 days showed significantly higher catalase activity in the gills than control fish. Significantly lower acetylcholinesterase activity, indicating neurotoxic effects, was also observed in all fish treated for 21 days. Results demonstrated the capacity of GO to carry PAHs and to exert sublethal effects in zebrafish. 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In this study we aimed to (1) assess the capacity of graphene oxide (GO) to sorb PAHs and (2) to evaluate the toxicity of GO alone and in combination with PAHs on zebrafish embryos and adults. GO showed a high sorption capacity for benzo(a)pyrene (B(a)P) (98% of B(a)P sorbed from a nominal concentration of 100 μg/L) and for other PAHs of the water accommodated fraction (WAF) of a naphthenic North Sea crude oil, depending on their log Kow (95.7% of phenanthrene, 84.4% of fluorene and 51.5% of acenaphthene). In embryos exposed to different GO nanomaterials alone and with PAHs, no significant mortality was recorded for any treatment. Nevertheless, malformation rate increased significantly in embryos exposed to the highest concentrations (5 or 10 mg/L) of GO and reduced GO (rGO) alone and with sorbed B(a)P (GO-B(a)P). On the other hand, adults were exposed for 21 days to 2 mg/L of GO, GO-B(a)P and GO co-exposed with WAF (GO + WAF) and to 100 μg/L B(a)P. Fish exposed to GO presented GO in the intestine lumen and liver vacuolisation. Transcription level of genes related to cell cycle regulation and oxidative stress was not altered, but the slight up-regulation of cyp1a measured in fish exposed to B(a)P for 3 days resulted in a significantly increased EROD activity. Fish exposed to GO-B(a)P and to B(a)P for 3 days and to GO + WAF for 21 days showed significantly higher catalase activity in the gills than control fish. Significantly lower acetylcholinesterase activity, indicating neurotoxic effects, was also observed in all fish treated for 21 days. Results demonstrated the capacity of GO to carry PAHs and to exert sublethal effects in zebrafish. [Display omitted] •Graphene oxide showed a high capacity to sorb PAHs depending on their hydrophobicity.•Graphene oxide alone or with PAHs caused malformations in zebrafish embryos.•Adult and embryo zebrafish ingested graphene oxide.•Sublethal effects provoked by graphene oxide included neurotoxicity.•Graphene oxide with sorbed PAHs caused oxidative stress in the gills.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>33618313</pmid><doi>10.1016/j.scitotenv.2021.145669</doi><orcidid>https://orcid.org/0000-0001-5282-9011</orcidid><orcidid>https://orcid.org/0000-0003-1028-9154</orcidid><oa>free_for_read</oa></addata></record>
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subjects Adsorption
Animals
Aquatic nanotoxicity
Carbon based nanomaterials
Environmental Sciences
Graphite - toxicity
Nanostructures
North Sea
Organic pollutants
Polycyclic Aromatic Hydrocarbons - analysis
Polycyclic Aromatic Hydrocarbons - toxicity
Water Pollutants, Chemical - toxicity
Zebrafish
title Uptake and effects of graphene oxide nanomaterials alone and in combination with polycyclic aromatic hydrocarbons in zebrafish
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