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在适应高盐环境的虹鳟(Oncorhynchus mykiss)中倍硫磷激活的机制。

Mechanisms of fenthion activation in rainbow trout (Oncorhynchus mykiss) acclimated to hypersaline environments.

作者信息

Lavado Ramon, Rimoldi John M, Schlenk Daniel

机构信息

Department of Environmental Chemistry, University of California Riverside, 900 University Ave., Riverside, CA 92521, USA.

出版信息

Toxicol Appl Pharmacol. 2009 Mar 1;235(2):143-52. doi: 10.1016/j.taap.2008.11.017. Epub 2008 Dec 9.

Abstract

Previous studies in rainbow trout have shown that acclimation to hypersaline environments enhances the toxicity to thioether organophosphate and carbamate pesticides. In order to determine the role of biotransformation in this process, the metabolism of the thioether organophosphate biocide, fenthion was evaluated in microsomes from gills, liver and olfactory tissues in rainbow trout (Oncorhynchus mykiss) acclimated to freshwater and 17 per thousand salinity. Hypersalinity acclimation increased the formation of fenoxon and fenoxon sulfoxide from fenthion in liver microsomes from rainbow trout, but not in gills or in olfactory tissues. NADPH-dependent and independent hydrolysis was observed in all tissues, but only NADPH-dependent fenthion cleavage was differentially modulated by hypersalinity in liver (inhibited) and gills (induced). Enantiomers of fenthion sulfoxide (65% and 35% R- and S-fenthion sulfoxide, respectively) were formed in liver and gills. The predominant pathway of fenthion activation in freshwater appears to be initiated through initial formation of fenoxon which may be subsequently converted to the most toxic metabolite fenoxon R-sulfoxide. However, in hypersaline conditions both fenoxon and fenthion sulfoxide formation may precede fenoxon sulfoxide formation. Stereochemical evaluation of sulfoxide formation, cytochrome P450 inhibition studies with ketoconazole and immunoblots indicated that CYP3A27 was primarily involved in the enhancement of fenthion activation in hypersaline-acclimated fish with limited contribution of FMO to initial sulfoxidation.

摘要

此前对虹鳟鱼的研究表明,适应高盐环境会增强硫醚有机磷酸酯和氨基甲酸酯类农药的毒性。为了确定生物转化在此过程中的作用,我们评估了在适应淡水和17‰盐度的虹鳟鱼(Oncorhynchus mykiss)的鳃、肝脏和嗅觉组织微粒体中硫醚有机磷酸酯杀生物剂倍硫磷的代谢情况。高盐度适应增加了虹鳟鱼肝脏微粒体中倍硫磷生成氧乐果和氧乐果亚砜的量,但在鳃或嗅觉组织中未出现这种情况。在所有组织中均观察到了NADPH依赖性和非依赖性水解,但只有NADPH依赖性的倍硫磷裂解在肝脏(受抑制)和鳃(被诱导)中受到高盐度的差异调节。肝脏和鳃中形成了氧乐果亚砜的对映体(分别为65%的R - 氧乐果亚砜和35%的S - 氧乐果亚砜)。淡水环境中倍硫磷活化的主要途径似乎是通过氧乐果的初始形成启动的,氧乐果随后可能转化为毒性最大的代谢产物氧乐果R - 亚砜。然而,在高盐条件下,氧乐果和氧乐果亚砜的形成可能先于氧乐果亚砜的形成。对亚砜形成的立体化学评估、酮康唑的细胞色素P450抑制研究以及免疫印迹表明,CYP3A27主要参与了高盐适应鱼类中倍硫磷活化的增强,而黄素单加氧酶对初始亚砜化的贡献有限。

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