The present study investigates the potential interaction between nano‑titanium dioxide (nano-TiO2) and the water accommodated fraction (WAF) of crude oil and associated chemicals on bioavailability and biotransformation responses in the European sea bass (Dicentrarchus labrax). An in vivo (48-h) waterborne exposure with nano-TiO2 (10 mgL-1), crude oil WAF (0.068 gL-1), alone and in combination was performed. Combined exposure significantly reduced levels of polycyclic aromatic hydrocarbons (PAH) in either seawater and fish fillets compared to WAF alone. A significant reduction in the expression of several biotransformation genes (cyp1a, gsta, erβ2, elmod2, abcb1 and abcc1) when nano-TiO2 was combined with WAF was observed in fish liver, compared to WAF alone. EROD and GST enzyme activities were also significantly reduced. Nano-TiO2 can reduce PAHs bioavailability in seawater and biological responses in European sea bass, suggesting a potential safe application of nano-TiO2 for the remediation of crude oil WAF in the marine environment.
nano-TiO2 reduces bioavailability and biotransformation responses to crude oil WAF-associated PAHs in the European sea bass Dicentrachus labrax / M.L. Vannuccini, C. Della Torre, G. Grassi, C. Zambonin, P. Cotugno, M.J. Leaver, I. Corsi. - In: MARINE POLLUTION BULLETIN. - ISSN 0025-326X. - 209:Pt B(2024 Dec), pp. 117265.1-117265.11. [10.1016/j.marpolbul.2024.117265]
nano-TiO2 reduces bioavailability and biotransformation responses to crude oil WAF-associated PAHs in the European sea bass Dicentrachus labrax
C. Della TorreSecondo
;
2024
Abstract
The present study investigates the potential interaction between nano‑titanium dioxide (nano-TiO2) and the water accommodated fraction (WAF) of crude oil and associated chemicals on bioavailability and biotransformation responses in the European sea bass (Dicentrarchus labrax). An in vivo (48-h) waterborne exposure with nano-TiO2 (10 mgL-1), crude oil WAF (0.068 gL-1), alone and in combination was performed. Combined exposure significantly reduced levels of polycyclic aromatic hydrocarbons (PAH) in either seawater and fish fillets compared to WAF alone. A significant reduction in the expression of several biotransformation genes (cyp1a, gsta, erβ2, elmod2, abcb1 and abcc1) when nano-TiO2 was combined with WAF was observed in fish liver, compared to WAF alone. EROD and GST enzyme activities were also significantly reduced. Nano-TiO2 can reduce PAHs bioavailability in seawater and biological responses in European sea bass, suggesting a potential safe application of nano-TiO2 for the remediation of crude oil WAF in the marine environment.
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