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不同物种间手性多氯联苯的毒代动力学——综述

Toxicokinetics of chiral polychlorinated biphenyls across different species--a review.

作者信息

Kania-Korwel Izabela, Lehmler Hans-Joachim

机构信息

Department of Occupational and Environmental Health, College of Public Health, The University of Iowa, UI Research Park, #221 IREH, Iowa City, IA, USA.

出版信息

Environ Sci Pollut Res Int. 2016 Feb;23(3):2058-80. doi: 10.1007/s11356-015-4383-0. Epub 2015 Apr 1.

DOI:10.1007/s11356-015-4383-0
PMID:25824003
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4591098/
Abstract

Nineteen polychlorinated biphenyls (chiral or C-PCBs) exist as two stable rotational isomers (atropisomers) that are non-superimposable mirror images of each other. C-PCBs are released into the environment as racemic (i.e., equal) mixtures of both atropisomers and undergo atropisomeric enrichment due to biological, but not abiotic, processes. In particular, toxicokinetic studies provide important initial insights into atropselective processes involved in the disposition (i.e., absorption, distribution, biotransformation, and excretion) of C-PCBs. The toxicokinetic of C-PCBs is highly congener and species dependent. In particular, at lower trophic levels, abiotic processes play a predominant role in C-PCB toxicokinetics. Biotransformation plays an important role in the elimination of C-PCBs in mammals. The elimination of C-PCB follows the approximate order mammals > birds > amphibians > fish, mostly due to a corresponding decrease in metabolic capacity. A few studies have shown differences in the toxicokinetics of C-PCB atropisomers; however, more work is needed to understand the toxicokinetics of C-PCBs and the underlying biological processes. Such studies will not only contribute to our understanding of the fate of C-PCBs in aquatic and terrestrial food webs but also facilitate our understanding of human exposures to C-PCBs.

摘要

19种多氯联苯(手性多氯联苯或C-PCBs)以两种稳定的旋转异构体(阻转异构体)形式存在,它们是彼此不可重叠的镜像。C-PCBs作为两种阻转异构体的外消旋(即等量)混合物释放到环境中,并由于生物过程而非非生物过程而发生阻转异构富集。特别是,毒代动力学研究为C-PCBs处置(即吸收、分布、生物转化和排泄)过程中涉及的对映体选择性过程提供了重要的初步见解。C-PCBs的毒代动力学高度依赖于同系物和物种。特别是在较低营养级水平,非生物过程在C-PCBs毒代动力学中起主要作用。生物转化在哺乳动物体内C-PCBs的消除中起重要作用。C-PCBs的消除顺序大致为哺乳动物>鸟类>两栖动物>鱼类,这主要是由于代谢能力相应下降所致。一些研究表明C-PCBs阻转异构体的毒代动力学存在差异;然而,需要更多的工作来了解C-PCBs的毒代动力学及其潜在的生物学过程。此类研究不仅有助于我们了解C-PCBs在水生和陆地食物网中的归宿,也有助于我们了解人类接触C-PCBs的情况。

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Polychlorinated biphenyl contamination of paints containing polycyclic- and Naphthol AS-type pigments.多氯联苯污染的油漆含有多环芳烃和萘酚 AS 型颜料。
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