1. Comparative biochemical and molecular responses of biotransformation and antioxidant systems in three species of Crassostrea (Sacco, 1897) oysters exposed to chrysene.
- Author
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Bastolla, Camila L.V., Lima, Daína, Mattos, Jacó J., Dias, Vera H.V., Righetti, Bárbara P.H., Gomes, Carlos H.A.M., Cella, Herculano, Reis, Isis M.M., Saldaña-Serrano, Miguel, Ferreira, Clarissa P., Bícego, Márcia C., Taniguchi, Satie, Zacchi, Flávia L., and Bainy, Afonso C.D.
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CRASSOSTREA , *BIOCONVERSION , *CHRYSENE , *OYSTERS , *PACIFIC oysters , *AQUATIC animals , *POLYCYCLIC aromatic hydrocarbons - Abstract
Chrysene (CHR) is among the most persistent polycyclic aromatic hydrocarbons (PAH) in water and a priority compound for pollutants monitoring, due to its carcinogenic, mutagenic and genotoxic potential. Aquatic animals exposed to CHR may present alterations of biomarkers involved in the biotransformation and oxidative stress-related parameters. The aim of this study was to investigate differences in antioxidant and biotransformation (phase I and II) systems of Crassostrea gigas , C. gasar and C. rhizophorae and its effects resulting from CHR exposure. Adult oysters of these species were exposed to 10 μg L−1 of CHR for 24 h and 96 h. In gills, the transcripts CYP1-like , CYP2-like , CYP2AU1-like , GSTO-like , MGST-like , SULT-like were evaluated after 24 h of exposure. The activity of SOD, CAT, GPx, GR and G6PDH were analyzed in gills and digestive glands after 96 h of exposure. CHR bioaccumulated in tissues. Differences in the remaining levels of CHR in water after 96 h were observed in aquaria containing C. gigas or C. gasar oysters and may be associated to the different filtration rates between these species. Downregulate of biotransformation genes were observed in gills of C. gasar (CYP2AU1-like and GSTO-like) and C. rhizophorae (CYP1-like1 , CYP2-like , MGST-like and SULT-like), suggesting that biotransformation responses may be species-specific. Differential activity of antioxidant enzymes were observed in gills and digestive gland of oysters exposed to CHR. Biochemical responses suggested that C. gigas and C. gasar are more responsive to CHR. Differential responses observed among the three Crassostrea species can be related to evolutionary differences, ecological niches and adaptation to environment. [Display omitted] • Exposure to CHR downregulate biotransformation and antioxidant systems • Compared to C. rhizophorae , C. gigas and C. gasar were more responsive to CHR exposure. • Species-specific responses may be related to their evolutionary responses. • Crassostrea gasar is suggested for PAH biomonitoring programs. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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