Effect of exposure to benzo[a]pyrene on SODs, CYP1A11A2- and CYP2E1 immunopositive proteins in the blood clam Scapharca inaequivalvis

The effects of water-borne exposure to benzo[a]pyrene (36 h; celite-bound 0.44 mg L super(-1) B[a]P) on cytochrome P450 (CYP) and superoxide dismutases (SODs) were examined in digestive gland of the blood clam, Scapharca inaequivalvis. B[a]P accumulation and elimination were rapid, with maximum whol...

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Veröffentlicht in:	Marine environmental research 2007-03, Vol.63 (3), p.200-218
Hauptverfasser:	Monari, M, Cattani, O, Serrazanetti, G P, Selli, A, Pagliuca, G, Zironi, E, O'Hara, SCM, Livingstone, DR
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Schlagworte:	Marine Scapharca inaequivalvis
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creator	Monari, M Cattani, O Serrazanetti, G P Selli, A Pagliuca, G Zironi, E O'Hara, SCM Livingstone, DR
description	The effects of water-borne exposure to benzo[a]pyrene (36 h; celite-bound 0.44 mg L super(-1) B[a]P) on cytochrome P450 (CYP) and superoxide dismutases (SODs) were examined in digestive gland of the blood clam, Scapharca inaequivalvis. B[a]P accumulation and elimination were rapid, with maximum whole-body concentrations of 1.78 ng g super(-1) wet wt after 12 h of treatment, followed by a progressive decline to 0.89 ng g super(-1) at 36 h. The presence of B[a]P resulted in an increase in total CYP of digestive gland microsomes from 54 c 14 to 108 c 21 pmol/mg protein (mean c SD; p < 0.05, 24 h). Increases were also seen in microsomal CYP1A1/1A2-immunopositive protein (50.5 kDa app. mol. wt; p < 0.05), but not CYP2E1-immunopositive protein (49 kDa app. mol. wt.), indicating a specific response of the former isoform. Exposure to B[a]P produced a steady increase in Mn-SOD digestive gland activity (p < 0.01; p < 0.05) but no significant change in Cu/Zn-SOD activity. The respective proteins, measured by western blotting, were not significant induced after B[a]P exposure. Cu/Zn-SOD and Mn-SOD activities were correlated with total CYP levels (r = 0.96 and 0.63, respectively), indicating a role for CYP in reactive oxygen species (ROS) production during exposure. Both NADPH-independent and NADPH-dependent metabolism of B[a]P by digestive gland microsomes was seen, producing mainly 1,6-, 3,6- and 6,12-diones, with some phenols and 7,8-dihydrodiol; purative protein adducts were also formed. Redox cycling of the diones may also have contributed to ROS production, leading to the increased SOD activities.
doi_str_mv	10.1016/j.marenvres.2006.08.004
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B[a]P accumulation and elimination were rapid, with maximum whole-body concentrations of 1.78 ng g super(-1) wet wt after 12 h of treatment, followed by a progressive decline to 0.89 ng g super(-1) at 36 h. The presence of B[a]P resulted in an increase in total CYP of digestive gland microsomes from 54 c 14 to 108 c 21 pmol/mg protein (mean c SD; p < 0.05, 24 h). Increases were also seen in microsomal CYP1A1/1A2-immunopositive protein (50.5 kDa app. mol. wt; p < 0.05), but not CYP2E1-immunopositive protein (49 kDa app. mol. wt.), indicating a specific response of the former isoform. Exposure to B[a]P produced a steady increase in Mn-SOD digestive gland activity (p < 0.01; p < 0.05) but no significant change in Cu/Zn-SOD activity. The respective proteins, measured by western blotting, were not significant induced after B[a]P exposure. Cu/Zn-SOD and Mn-SOD activities were correlated with total CYP levels (r = 0.96 and 0.63, respectively), indicating a role for CYP in reactive oxygen species (ROS) production during exposure. Both NADPH-independent and NADPH-dependent metabolism of B[a]P by digestive gland microsomes was seen, producing mainly 1,6-, 3,6- and 6,12-diones, with some phenols and 7,8-dihydrodiol; purative protein adducts were also formed. 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B[a]P accumulation and elimination were rapid, with maximum whole-body concentrations of 1.78 ng g super(-1) wet wt after 12 h of treatment, followed by a progressive decline to 0.89 ng g super(-1) at 36 h. The presence of B[a]P resulted in an increase in total CYP of digestive gland microsomes from 54 c 14 to 108 c 21 pmol/mg protein (mean c SD; p < 0.05, 24 h). Increases were also seen in microsomal CYP1A1/1A2-immunopositive protein (50.5 kDa app. mol. wt; p < 0.05), but not CYP2E1-immunopositive protein (49 kDa app. mol. wt.), indicating a specific response of the former isoform. Exposure to B[a]P produced a steady increase in Mn-SOD digestive gland activity (p < 0.01; p < 0.05) but no significant change in Cu/Zn-SOD activity. The respective proteins, measured by western blotting, were not significant induced after B[a]P exposure. 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B[a]P accumulation and elimination were rapid, with maximum whole-body concentrations of 1.78 ng g super(-1) wet wt after 12 h of treatment, followed by a progressive decline to 0.89 ng g super(-1) at 36 h. The presence of B[a]P resulted in an increase in total CYP of digestive gland microsomes from 54 c 14 to 108 c 21 pmol/mg protein (mean c SD; p < 0.05, 24 h). Increases were also seen in microsomal CYP1A1/1A2-immunopositive protein (50.5 kDa app. mol. wt; p < 0.05), but not CYP2E1-immunopositive protein (49 kDa app. mol. wt.), indicating a specific response of the former isoform. Exposure to B[a]P produced a steady increase in Mn-SOD digestive gland activity (p < 0.01; p < 0.05) but no significant change in Cu/Zn-SOD activity. The respective proteins, measured by western blotting, were not significant induced after B[a]P exposure. Cu/Zn-SOD and Mn-SOD activities were correlated with total CYP levels (r = 0.96 and 0.63, respectively), indicating a role for CYP in reactive oxygen species (ROS) production during exposure. Both NADPH-independent and NADPH-dependent metabolism of B[a]P by digestive gland microsomes was seen, producing mainly 1,6-, 3,6- and 6,12-diones, with some phenols and 7,8-dihydrodiol; purative protein adducts were also formed. Redox cycling of the diones may also have contributed to ROS production, leading to the increased SOD activities.</abstract><doi>10.1016/j.marenvres.2006.08.004</doi></addata></record>
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title	Effect of exposure to benzo[a]pyrene on SODs, CYP1A11A2- and CYP2E1 immunopositive proteins in the blood clam Scapharca inaequivalvis
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