Among currently identified issues presenting risks and benefits to human and ocean health, engineered nanoparticles (ENP) represent a priority. Predictions of their economic and social impact appear extraordinary, but their release in the environment at an uncontrollable rate is in striking contrast with the extremely limited number of studies on environmental impact, especially on the marine environment. The sea urchin has a remarkable sensing environmental system whose function and diversity came into focus during the recent years, after sea urchin genome sequencing. The complex immune system may be the basis wherefore sea urchins can adapt to a dynamic environment and survive even in hazardous conditions both in the adult and in the embryonic life. This review is aimed at discussing the literature in nanotoxicological/ecotoxicological studies with a focus on stress and innate immune signaling in sea urchins. In addition, here we introduce our current development of in vitro-driven probes that could be used to dissect ENP aftermaths, suggesting their future use in immune-nanotoxicology.

译文

:在目前发现的对人类和海洋健康构成风险和益处的问题中,工程纳米颗粒(ENP)成为重中之重。对它们的经济和社会影响的预测似乎非同寻常,但它们以不可控制的速度释放到环境中,与对环境影响,特别是对海洋环境的研究数量极为有限形成鲜明对比。在海胆基因组测序之后,海胆具有卓越的传感环境系统,近年来其功能和多样性成为人们关注的焦点。复杂的免疫系统可能是海胆能够适应动态环境并在成年和胚胎生命中甚至在危险条件下生存的基础。这篇综述旨在讨论纳米毒理学/生态毒理学研究中的文献,重点是海胆中的压力和先天性免疫信号传导。此外,在这里,我们介绍了体外驱动探针的最新进展,该探针可用于剖析ENP后果,表明它们在免疫纳米毒理学中的未来用途。

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