Porseryd Tove, Kellner Martin, Reyhanian Caspillo Nasim, Volkova Kristina, Elabbas Lubna, Ullah Shahid, Olsén Håkan, Dinnétz Patrik, Porsch Hällström Inger
School of Natural Sciences, Technology and Environmental Studies, Södertörn University, SE-141 89 Huddinge, Sweden.
School of Natural Sciences, Technology and Environmental Studies, Södertörn University, SE-141 89 Huddinge, Sweden.
Aquat Toxicol. 2017 Dec;193:9-17. doi: 10.1016/j.aquatox.2017.10.001. Epub 2017 Oct 4.
Sewage effluents contain pharmaceuticals, personal care products and industrial chemicals, exposing aquatic organisms to complex mixtures. The consequences of exposure to combinations of different classes of drugs in fish are largely unknown. In this study, we exposed adult zebrafish (Danio rerio) males and females for two weeks to low, environmentally relevant concentrations of the endocrine disrupting chemical 17α-etinylestradiol (EE) and the selective serotonin re-uptake inhibitor (SSRI) citalopram, alone and in combination, and analyzed behaviors of importance for population fitness, scototaxis (light/dark preference), the novel tank test and shoal cohesion. Control water contained 0.4ng/L EE and the measured exposure concentrations were 0.9ng/L EE (nominal 0.1) and 1ng/L EE (nominal 0.5). The measured concentrations of citalopram were 0.1 (nominal 0.1) and 0.4μg/L (nominal 0.5). Both EE exposures increased anxiety in males in the scototaxis test, with significantly longer latency periods before entering and fewer visits to the white zone of the tank. The combined exposures (0.9ng/L EE+0.1μg/L citalopram and 1ng/L EE+0.4μg/L citalopram) resulted in abolishment of effects of EE, with shorter latency period and more transitions to white than for fish exposed to EE alone. In the novel tank test, the results surprisingly indicated lower anxiety after both EE and citalopram exposure. Significantly more transitions to the upper half of the tank observed in males exposed to 0.1μg/L citalopram alone compared to control males. Males exposed to EE (0.9ng/L) had shorter latency period to the upper half. Combination exposure resulted in a longer latency and fewer transitions to the upper half compared to both control, EE- and citalopram-exposed males. Males exposed to the combination spent significantly less time in the upper half than males EE or citalopram-exposed males. Females exposed to 1ng/L EE had fewer transitions to the upper half than the control group and females exposed to 0.4μg/L citalopram. In the shoaling test, males exposed to 0.1μg/L citalopram+0.9ng/L EE showed more transitions away from peers than males exposed to 0.1μg/L citalopram alone. In conclusion, low concentrations of EE, closely above the predicted no effect concentration (NOEC) of 0.1ng/L, created anxiety-like behavior in zebrafish males. Citalopram showed marginal effects at these low concentrations but in the combination exposure the behavioral effects of EE were abolished. This is an initial effort to understand the effects of cocktails of anthropogenic substances contaminating aquatic environments.
污水排放物中含有药物、个人护理产品和工业化学品,使水生生物暴露于复杂的混合物中。鱼类接触不同种类药物组合的后果在很大程度上尚不清楚。在本研究中,我们将成年斑马鱼(Danio rerio)的雄性和雌性暴露于低浓度、与环境相关的内分泌干扰化学物质17α-乙炔雌二醇(EE)和选择性5-羟色胺再摄取抑制剂(SSRI)西酞普兰中两周,单独暴露以及联合暴露,然后分析对种群适应性、趋暗性(明暗偏好)、新环境适应试验和群体凝聚力等重要行为。对照水中含有0.4ng/L EE,实测暴露浓度为0.9ng/L EE(标称0.1)和1ng/L EE(标称0.5)。实测的西酞普兰浓度为0.1(标称0.1)和0.4μg/L(标称0.5)。在趋暗性试验中,两种EE暴露均增加了雄性的焦虑,进入水箱白色区域前的潜伏期显著延长,进入白色区域的次数减少。联合暴露(0.9ng/L EE + 0.1μg/L西酞普兰和1ng/L EE + 0.4μg/L西酞普兰)导致EE的作用消失,与单独暴露于EE的鱼相比,潜伏期更短,向白色区域的转变更多。在新环境适应试验中,结果令人惊讶地表明,EE和西酞普兰暴露后焦虑程度较低。与对照雄性相比,单独暴露于0.1μg/L西酞普兰的雄性向水箱上半部分的转变明显更多。暴露于EE(0.9ng/L)的雄性到达上半部分的潜伏期更短。与对照、暴露于EE和西酞普兰的雄性相比,联合暴露导致潜伏期更长,向上半部分的转变更少。暴露于联合药物的雄性在上半部分花费的时间明显少于暴露于EE或西酞普兰的雄性。暴露于1ng/L EE的雌性向上半部分的转变比对照组和暴露于0.4μg/L西酞普兰的雌性少。在聚群试验中,暴露于0.1μg/L西酞普兰 + 0.9ng/L EE的雄性比单独暴露于0.1μg/L西酞普兰的雄性表现出更多远离同伴的转变。总之,略高于预测无效应浓度(NOEC)0.1ng/L的低浓度EE在斑马鱼雄性中产生了类似焦虑的行为。西酞普兰在这些低浓度下显示出轻微影响,但在联合暴露中,EE的行为效应被消除。这是了解污染水生环境的人为物质混合物影响的初步尝试。
