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CdTe 量子点在秀丽隐杆线虫 RMEs 运动神经元中的转位和神经毒性。

Translocation and neurotoxicity of CdTe quantum dots in RMEs motor neurons in nematode Caenorhabditis elegans.

机构信息

Key Laboratory of Environmental Medicine Engineering in Ministry of Education, Medical School of Southeast University, Nanjing 210009, China.

Key Laboratory of Environmental Medicine Engineering in Ministry of Education, Medical School of Southeast University, Nanjing 210009, China.

出版信息

J Hazard Mater. 2015;283:480-9. doi: 10.1016/j.jhazmat.2014.09.063. Epub 2014 Oct 7.

DOI:10.1016/j.jhazmat.2014.09.063
PMID:25464286
Abstract

We employed Caenorhabditis elegans assay system to investigate in vivo neurotoxicity of CdTe quantum dots (QDs) on RMEs motor neurons, which are involved in controlling foraging behavior, and the underlying mechanism of such neurotoxicity. After prolonged exposure to 0.1-1 μg/L of CdTe QDs, abnormal foraging behavior and deficits in development of RMEs motor neurons were observed. The observed neurotoxicity from CdTe QDs on RMEs motor neurons might be not due to released Cd(2+). Overexpression of genes encoding Mn-SODs or unc-30 gene controlling cell identity of RMEs neurons prevented neurotoxic effects of CdTe QDs on RMEs motor neurons, suggesting the crucial roles of oxidative stress and cell identity in regulating CdTe QDs neurotoxicity. In nematodes, CdTe QDs could be translocated through intestinal barrier and be deposited in RMEs motor neurons. In contrast, CdTe@ZnS QDs could not be translocated into RMEs motor neurons and therefore, could only moderately accumulated in intestinal cells, suggesting that ZnS coating might reduce neurotoxicity of CdTe QDs on RMEs motor neurons. Therefore, the combinational effects of oxidative stress, cell identity, and bioavailability may contribute greatly to the mechanism of CdTe QDs neurotoxicity on RMEs motor neurons. Our results provide insights into understanding the potential risks of CdTe QDs on the development and function of nervous systems in animals.

摘要

我们采用秀丽隐杆线虫(Caenorhabditis elegans) assay 系统,研究了 CdTe 量子点(QDs)对调控觅食行为的 RMEs 运动神经元的体内神经毒性及其潜在机制。在延长暴露于 0.1-1μg/L CdTe QDs 后,观察到 RMEs 运动神经元的异常觅食行为和发育缺陷。CdTe QDs 对 RMEs 运动神经元的神经毒性可能不是由于释放的 Cd(2+)引起的。Mn-SODs 基因或 unc-30 基因的过表达可阻止 CdTe QDs 对 RMEs 运动神经元的神经毒性作用,表明氧化应激和细胞身份在调节 CdTe QDs 神经毒性中起着关键作用。在线虫中,CdTe QDs 可以通过肠道屏障转运并沉积在 RMEs 运动神经元中。相比之下,CdTe@ZnS QDs 不能转运到 RMEs 运动神经元中,因此只能在肠道细胞中适度积累,这表明 ZnS 涂层可能会降低 CdTe QDs 对 RMEs 运动神经元的神经毒性。因此,氧化应激、细胞身份和生物利用度的综合作用可能对 CdTe QDs 对 RMEs 运动神经元的神经毒性机制有重要影响。我们的研究结果为理解 CdTe QDs 对动物神经系统发育和功能的潜在风险提供了新的认识。

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