纳米锌基金属有机框架通过干扰儿茶酚胺神经递质的代谢诱导神经毒性

IF 10.8 1区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL 环境科学与技术 Pub Date : 2023-03-21 DOI:10.1021/acs.est.2c09740
Shuang Liu, Jingcun Dong, Xiaolong Fang, Xueting Yan, He Zhang, Yu Hu, Qingqing Zhu, Ruibin Li, Qian Liu, Sijin Liu, Chunyang Liao* and Guibin Jiang, 
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引用次数: 0

摘要

纳米金属有机骨架(mof)作为一类新型纳米材料,广泛应用于生物医学领域,对人体尤其是中枢神经系统产生了未知的风险。本研究分别以C57BL/6小鼠和PC12细胞为模型,在体内和体外研究MOF-74-Zn纳米颗粒对神经行为和神经递质代谢的影响。暴露于低剂量MOF-74-Zn纳米颗粒后,小鼠的探索行为减少,绝望行为增加,表现出负性行为增加。儿茶酚胺神经递质代谢紊乱可能是mof -74- zn诱导的异常行为的原因。部分原因是神经突伸展受限导致神经递质合成受到抑制。此外,MOF-74-Zn促进更多的钙转运到细胞质中,加速钙的释放和吸收,最终导致合成和分解代谢失衡。综上所述,本研究结果表明了纳米级低毒性金属基MOF的人体毒性风险,并为MOF纳米材料的合理安全使用提供了有价值的见解。
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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Nanoscale Zinc-Based Metal–Organic Frameworks Induce Neurotoxicity by Disturbing the Metabolism of Catecholamine Neurotransmitters

As a group of new nanomaterials, nanoscale metal–organic frameworks (MOFs) are widely applied in the biomedical field, exerting unknown risks to the human body, especially the central nervous system. Herein, the impacts of MOF-74-Zn nanoparticles on neurological behaviors and neurotransmitter metabolism are explored in both in vivo and in vitro assays modeled by C57BL/6 mice and PC12 cells, respectively. The mice exhibit increased negative-like behaviors, as demonstrated by the observed decrease in exploring behaviors and increase in despair-like behaviors in the open field test and forced swimming test after exposure to low doses of MOF-74-Zn nanoparticles. Disorders in the catecholamine neurotransmitter metabolism may be responsible for the MOF-74-Zn-induced abnormal behaviors. Part of the reason for this is the inhibition of neurotransmitter synthesis caused by restrained neurite extension. In addition, MOF-74-Zn promotes the translocation of more calcium into the cytoplasm, accelerating the release and uptake and finally resulting in an imbalance between synthesis and catabolism. Taken together, the results from this study indicate the human toxicity risks of nanoscale low-toxicity metal-based MOFs and provide valuable insight into the rational and safe use of MOF nanomaterials.

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来源期刊
环境科学与技术
环境科学与技术 环境科学-工程:环境
CiteScore
17.50
自引率
9.60%
发文量
12359
审稿时长
2.8 months
期刊介绍: Environmental Science & Technology (ES&T) is a co-sponsored academic and technical magazine by the Hubei Provincial Environmental Protection Bureau and the Hubei Provincial Academy of Environmental Sciences. Environmental Science & Technology (ES&T) holds the status of Chinese core journals, scientific papers source journals of China, Chinese Science Citation Database source journals, and Chinese Academic Journal Comprehensive Evaluation Database source journals. This publication focuses on the academic field of environmental protection, featuring articles related to environmental protection and technical advancements.
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