Comparative sensitivity and mechanisms of action of endemic fish species to environmental endocrine disruptors

特有鱼类对环境内分泌干扰物的比较敏感性和作用机制

• 批准号: 171258-2013
• 负责人: MacLatchy, Deborah
• 金额: $ 2.4万
• 依托单位: Wilfrid Laurier University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2013
• 资助国家: 加拿大
• 起止时间: 2013-01-01 至 2014-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=522857
• 关键词: Comparative; sensitivity; mechanisms; action; endemic

Aquatic systems are under threat from contaminants, as well as from increasing temperature and decreasing levels of oxygen (hypoxia) from global climate change and release of municipal and industrial effluents. Coastal and inland fish are exposed to contaminants from increasing urbanization and industrialization. Endocrine disruptors are environmental chemicals that affect fish by altering the normal functioning of their hormone systems which control reproduction, offspring development and growth. My proposal seeks to improve understanding of why some fish are more sensitive to environmental endocrine disruptors, and how changes in environmental conditions (e.g., temperature and hypoxia) affect the interaction of the contaminants within the fish. We will undertake studies on two Canadian fish species, the estuarine mummichog (Fundulus heteroclitus) of the east coast and the freshwater fathead minnow (Pimephales promelas) of the central region. Both species are somewhat resilient to environmental changes in temperature and dissolved oxygen, making them good model species. We will focus on the effects of synthetic estrogens which enter our waterways via sewage (from women taking birth control pills) and synthetic androgens from agricultural operations (from meat production). We hope to determine the relative sensitivity to endocrine disruptors of these important species in terms of their gonadal and offspring development in increasingly vulnerable environments. Of particular interest are the physiological processes by which the fish metabolize and clear (remove) the contaminants, respond via differences in receptor affinity to the contaminants in different tissues, and the resilience of their critical gonadal maturation process to exposure to external endocrine disruptors. Overall, studies in my laboratory seek to understand the mechanisms by which endocrine disruptors affect endocrine status, the factors affecting such, and the consequences of this impaired endocrine status on reproduction, growth and development in fish. By better understanding mechanisms of action in different species, we will be better able to make predictions of how to improve aquatic systems management to protect fish health.

水生系统受到污染物的威胁，也受到全球气候变化和城市和工业废水排放造成的温度升高和氧气水平下降（缺氧）的威胁。 沿海和内陆鱼类受到日益城市化和工业化的污染物的影响。 内分泌干扰物是影响鱼类的环境化学品，通过改变其激素系统的正常功能来控制生殖，后代发育和生长。 我的建议旨在提高对为什么一些鱼类对环境内分泌干扰物更敏感的理解，以及环境条件的变化（例如，温度和缺氧）影响鱼体内污染物的相互作用。 我们将对两种加拿大鱼类进行研究，即东海岸的河口mummichog（Fundulus heteroclitus）和中部地区的淡水黑头呆鱼（Pimephales promelas）。 这两个物种对温度和溶解氧的环境变化都有一定的适应力，使它们成为很好的模式物种。 我们将重点关注通过污水进入我们水道的合成雌激素（来自服用避孕药的妇女）和来自农业作业的合成雄激素（来自肉类生产）的影响。我们希望确定这些重要物种在日益脆弱的环境中性腺和后代发育对内分泌干扰物的相对敏感性。 特别令人感兴趣的是鱼代谢和清除（去除）污染物的生理过程，通过不同组织中对污染物的受体亲和力的差异做出反应，以及它们的关键性腺成熟过程对暴露于外部内分泌干扰物的弹性。 总的来说，我实验室的研究旨在了解内分泌干扰物影响内分泌状态的机制，影响因素，以及这种受损的内分泌状态对鱼类生殖，生长和发育的影响。 通过更好地了解不同物种的作用机制，我们将能够更好地预测如何改善水生系统管理以保护鱼类健康。