The sea urchin embryo and the cell stress responses: new perspectives

I. Deidda, R. Russo, Nadia Lampiasi, F. Zito, R. Bonaventura
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Abstract

In addition to many industrial activities that release pollutants in coastal areas, numerous human behaviors contribute to climate change, inducing global warming, which can also reshape the environmental impacts of some pollutants. Therefore, it is extremely important to develop new tools that can detect pollutants and environmental changes quickly and easily with high levels of sensitivity. The sea urchin embryo is a well-known model used worldwide in many research fields, including marine ecotoxicology, as a huge range of contaminants can affect its embryonic development with species-specific sensitivity. Morphological abnormalities are already considered biomarkers to evaluate the effects of pollutants, and, indeed, the sea urchin has long been used as one of the key species in a battery of bioassays to assess the toxicity of many pollutants and dredged sediments. At the cellular level, the molecular mechanisms activated against a stress agent constitute what is known as the “cell stress response,” analyzed here within a whole organism, namely, the sea urchin embryo. In this minireview, we have reported the available molecular biomarkers linked to morphological abnormalities and the genes affected by environmental changes and emerging pollutants, highlighting those studies that use high-throughput screening approaches to evaluate the effects of environmental conditions on sea urchin embryos.
海胆胚胎和细胞应激反应:新视角
除了许多工业活动会在沿海地区释放污染物外,人类的许多行为也会导致气候变 化,引起全球变暖,这也会改变某些污染物对环境的影响。因此,开发能够快速、简便、高灵敏度地检测污染物和环境变化的新工具极为重要。海胆胚胎是全球许多研究领域(包括海洋生态毒理学)使用的著名模型,因为大量污染物都会影响其胚胎发育,并具有物种特异性敏感性。形态异常已被视为评估污染物影响的生物标志物,事实上,海胆长期以来一直被用作一系列生物测定的关键物种之一,以评估许多污染物和疏浚沉积物的毒性。在细胞水平上,针对应激因子激活的分子机制构成了所谓的 "细胞应激反应",这里分析的是整个生物体,即海胆胚胎。在本小视图中,我们报告了与形态异常有关的现有分子生物标志物,以及受环境变化和新出现的污染物影响的基因,重点介绍了那些利用高通量筛选方法评估环境条件对海胆胚胎影响的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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