Toxicology Centre, University of Saskatchewan, 44 Campus Drive, Saskatoon, SK, Canada.
Department of Biology, University of Saskatchewan, 112 Science Place, Saskatoon, SK, Canada.
Ecotoxicol Environ Saf. 2017 Jun;140:65-75. doi: 10.1016/j.ecoenv.2017.02.023. Epub 2017 Feb 27.
The present study was designed to evaluate the interactive effects of chronic waterborne cadmium (Cd) and zinc (Zn) on tissue-specific metal accumulation and reproduction in fathead minnow (Pimephales promelas). Trios (1 male: 2 female; n=6-7) of fish were exposed for 21 days to: (i) control (no added Cd or Zn), (ii) waterborne Cd (7µg/L), (iii) waterborne Zn (170µg/L), and (iv) Cd and Zn in mixture (7 and 170µg/L, respectively). Exposure to Cd or Zn alone did not elicit any significant effect on reproductive output (cumulative egg production) relative to the control, however exposure to Cd and Zn in mixture resulted in a ~50% decrease in fish fecundity. Plasma estradiol in females was reduced by Cd and Zn exposures, both individually and in mixture, with the maximum reduction in the metal mixture exposure. The expression of hepatic estrogen receptor genes (ER-α and ER-β) in females was affected by exposure to Zn, alone and in mixture with Cd, but not to Cd alone, whereas hepatic vitellogenin gene expression was downregulated across all treatments. Increased follicular atresia in the ovary was also recorded, but only in fish exposed to Cd and Zn in mixture. The interactions of Cd and Zn in mixture decreased Cd accumulation in tissues (gill and liver), however no reciprocal reduction in tissue Zn accumulation was observed. In addition, the expression of the hepatic metallothionein gene was upregulated following exposure to Zn, alone and in combination with Cd, with no additive effects in the latter treatment. Overall, our findings suggest that chronic exposure to waterborne Cd and Zn in mixture may induce additive reproductive toxicity, essentially by disrupting estrogen-mediated functions in fish.
本研究旨在评估慢性水基镉 (Cd) 和锌 (Zn) 对胖头鱼组织特异性金属积累和繁殖的交互作用。将 6-7 对(1 雄:2 雌)鱼暴露于以下条件 21 天:(i)对照(未添加 Cd 或 Zn),(ii)水基 Cd(7μg/L),(iii)水基 Zn(170μg/L),和(iv)Cd 和 Zn 混合物(分别为 7 和 170μg/L)。单独暴露于 Cd 或 Zn 对繁殖输出(累积产卵量)没有产生任何显著影响,但暴露于 Cd 和 Zn 混合物中导致鱼类繁殖力下降约 50%。雌性血浆雌二醇在 Cd 和 Zn 暴露时均降低,单独和混合暴露时最大降低,金属混合物暴露时最大降低。雌性肝脏雌激素受体基因(ER-α 和 ER-β)的表达受到 Zn 的单独和与 Cd 混合暴露的影响,但 Cd 单独暴露没有影响,而肝卵黄蛋白原基因的表达在所有处理中均下调。卵巢滤泡闭锁也增加,但仅在暴露于 Cd 和 Zn 混合物的鱼类中记录到。Cd 和 Zn 混合物的相互作用降低了组织(鳃和肝)中的 Cd 积累,但没有观察到组织 Zn 积累的相应减少。此外,单独暴露于 Zn 以及与 Cd 联合暴露于 Zn 时,肝脏金属硫蛋白基因的表达上调,后者处理无累加效应。总的来说,我们的研究结果表明,慢性暴露于水基 Cd 和 Zn 混合物可能会引起附加的生殖毒性,主要是通过破坏鱼类体内的雌激素介导的功能。
