Li Hongxia, Drouillard Ken G, Bennett Erin, Haffner G Douglas, Letcher Robert J
Great Lakes Institute for Environmental Research, University of Windsor, 401 Sunset Avenue, Windsor, Ontario N9B 3P4, Canada.
Environ Sci Technol. 2003 Mar 1;37(5):832-9. doi: 10.1021/es026215l.
Halogenated phenolic contaminants (HPCs), polychlorinated biphenyls (PCBs), and other organochlorine (OC) contaminants (DDTs, chlordanes, HCH, and octachlorostyrene (OCS)) were determined (ng/g, wet wt basis) in the blood plasma of 6 piscivorous/pelagic- and 7 benthic-feeding fish species from the Detroit River. Seven to twelve hydroxylated (OH) PCB congeners with pentachloro- to nonachloro-substitution, pentachlorophenol (PCP) and 4-OH-heptachlorostyrene (4-OH-HpCS), as well as a number of other unidentified HPCs, were detected in all the fish species studied. The concentrations of sigma-OH-PCB (0.57-129.5 ng/ g), 4-OH-HpCS (0.02-0.31 ng/g), and PCP (0.05-3.42 ng/ g) in comparison to other major polychlorinated contaminants (sigma-PCB (10.4-909.0 ng/g), sigma-chlordane (0.72-8.68 ng/g), sigma-DDT (2.10-66.57 ng/g), and sigma-HCH (0.04-0.84 ng/g)) demonstrate the importance of HPCs, especially OH-PCBs, as plasma-associated contaminants. OH-PCBs are most likely metabolites of PCBs, and 4-OH-HpCS is a likely metabolite of OCS. Our findings indicate that metabolic biotransformation is a factor in the bioaccumulation, pharmacokinetics, and fate of OCS and highly chlorinated PCB congeners that are generally more recalcitrant in fish. Target tissue exposure to circulating OH-PCBs was variable, and thus potential OH-PCB-mediated toxicological activity and effects (e.g., endocrine-related) and health risks are different among the fish species.
在底特律河的6种食鱼性/中上层鱼类和7种底栖食性鱼类的血浆中测定了卤代酚类污染物(HPCs)、多氯联苯(PCBs)及其他有机氯(OC)污染物(滴滴涕、氯丹、六氯环己烷和八氯苯乙烯(OCS))(以湿重计,ng/g)。在所有研究的鱼类中均检测到7至12种具有五氯至九氯取代的羟基化(OH)多氯联苯同系物、五氯苯酚(PCP)和4-羟基七氯苯乙烯(4-OH-HpCS),以及一些其他未鉴定的HPCs。与其他主要多氯污染物(总多氯联苯(sigma-PCB,10.4 - 909.0 ng/g)、总氯丹(sigma-氯丹,0.72 - 8.68 ng/g)、总滴滴涕(sigma-DDT,2.10 - 66.57 ng/g)和总六氯环己烷(sigma-HCH,0.04 - 0.84 ng/g))相比,羟基化多氯联苯(sigma-OH-PCB,0.57 - 129.5 ng/g)、4-羟基七氯苯乙烯(4-OH-HpCS,0.02 - 0.31 ng/g)和五氯苯酚(PCP,0.05 - 3.42 ng/g)的浓度表明HPCs,尤其是羟基化多氯联苯作为血浆相关污染物的重要性。羟基化多氯联苯很可能是多氯联苯的代谢产物,4-羟基七氯苯乙烯很可能是八氯苯乙烯的代谢产物。我们的研究结果表明,代谢生物转化是影响有机氯污染物和高氯多氯联苯同系物生物累积、药代动力学及归宿的一个因素,这些污染物在鱼类中通常更难降解。目标组织对循环羟基化多氯联苯的暴露情况各不相同,因此羟基化多氯联苯介导的潜在毒理学活性和效应(如与内分泌相关的)以及健康风险在不同鱼类物种中也有所不同。
