Amorphous silica nanoparticles cause abnormal cytokinesis and multinucleation through dysfunction of the centralspindlin complex and microfilaments.

IF 7.2 1区 医学 Q1 TOXICOLOGY
Liyan Xiao, Jinyan Pang, Hua Qin, Liyang Dou, Man Yang, Ji Wang, Xianqing Zhou, Yang Li, Junchao Duan, Zhiwei Sun
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Abstract

Background: With the large-scale production and application of amorphous silica nanoparticles (aSiNPs), its adverse health effects are more worthy of our attention. Our previous research has demonstrated for the first time that aSiNPs induced cytokinesis failure, which resulted in abnormally high incidences of multinucleation in vitro, but the underlying mechanisms remain unclear. Therefore, the purpose of this study was firstly to explore whether aSiNPs induced multinucleation in vivo, and secondly to investigate the underlying mechanism of how aSiNPs caused abnormal cytokinesis and multinucleation.

Methods: Male ICR mice with intratracheal instillation of aSiNPs were used as an experimental model in vivo. Human hepatic cell line (L-02) was introduced for further mechanism study in vitro.

Results: In vivo, histopathological results showed that the rate of multinucleation was significantly increased in the liver and lung tissue after aSiNPs treatment. In vitro, immunofluorescence results manifested that aSiNPs directly caused microfilaments aggregation. Following mechanism studies indicated that aSiNPs increased ROS levels. The accumulation of ROS further inhibited the PI3k 110β/Aurora B pathway, leading to a decrease in the expression of centralspindlin subunits MKLP1 and CYK4 as well as downstream cytokines regulation related proteins Ect2, Cep55, CHMP2A and RhoA. Meanwhile, the particles caused abnormal co-localization of the key mitotic regulatory kinase Aurora B and the centralspindlin complex by inhibiting the PI3k 110β/Aurora B pathway. PI3K activator IGF increased the phosphorylation level of Aurora B and improved the relative ratio of the centralspindlin cluster. And ROS inhibitors NAC reduced the ratio of multinucleation, alleviated the PI3k 110β/Aurora B pathway inhibition, and then increased the expression of MKLP1, CYK4 and cytokinesis-related proteins, whilst NAC restored the clustering of the centralspindlin.

Conclusion: This study demonstrated that aSiNPs led to multinucleation formation both in vivo and in vitro. ASiNPs exposure caused microfilaments aggregation and inhibited the PI3k 110β/Aurora B pathway through excessive ROS, which then hindered the centralspindlin cluster as well as restrained the expression of centralspindlin subunits and cytokinesis-related proteins, which ultimately resulted in cytokinesis failure and the formation of multinucleation.

Abstract Image

Abstract Image

Abstract Image

无定形二氧化硅纳米颗粒通过中枢棘蛋白复合体和微丝的功能障碍引起异常胞质分裂和多核化。
背景:随着无定形二氧化硅纳米颗粒(aSiNPs)的大规模生产和应用,其对健康的不良影响更值得我们关注。我们之前的研究首次证明,aSiNPs诱导胞质分裂失败,导致体外多核发生率异常高,但其潜在机制尚不清楚。因此,本研究的目的首先是探讨aSiNPs是否在体内诱导多核化,其次是研究aSiNPs如何导致异常胞质分裂和多核化的潜在机制。方法:采用气管内滴注aSiNPs的雄性ICR小鼠作为体内实验模型。介绍了人肝细胞系(L-02),用于进一步的体外机制研究。结果:在体内,组织病理学结果显示,aSiNPs治疗后,肝和肺组织的多核化率显著增加。在体外,免疫荧光结果表明aSiNPs直接引起微丝聚集。以下机制研究表明,aSiNPs增加了ROS水平。ROS的积累进一步抑制了PI3k 110β/Orora B通路,导致中枢棘蛋白亚基MKLP1和CYK4以及下游细胞因子调节相关蛋白Ect2、Cep55、CHMP2A和RhoA的表达减少。同时,颗粒通过抑制PI3k 110β/Orora B通路,导致关键有丝分裂调节激酶Aurora B和中枢棘蛋白复合物的异常共定位。PI3K激活剂IGF增加了Aurora B的磷酸化水平,并提高了中心蛋白簇的相对比例。ROS抑制剂NAC降低了多核比率,减轻了PI3k 110β/Orora B通路的抑制,然后增加了MKLP1、CYK4和胞质分裂相关蛋白的表达,而NAC则恢复了中枢棘蛋白的聚集。结论:该研究表明,aSiNPs在体内和体外都能导致多核形成。ASiNPs暴露引起微丝聚集,并通过过量的ROS抑制PI3k 110β/Orora B通路,进而阻碍中枢纤蛋白簇,抑制中枢纤蛋白亚基和胞质分裂相关蛋白的表达,最终导致胞质分裂失败和多核形成。
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来源期刊
CiteScore
15.90
自引率
4.00%
发文量
69
审稿时长
6 months
期刊介绍: Particle and Fibre Toxicology is an online journal that is open access and peer-reviewed. It covers a range of disciplines such as material science, biomaterials, and nanomedicine, focusing on the toxicological effects of particles and fibres. The journal serves as a platform for scientific debate and communication among toxicologists and scientists from different fields who work with particle and fibre materials. The main objective of the journal is to deepen our understanding of the physico-chemical properties of particles, their potential for human exposure, and the resulting biological effects. It also addresses regulatory issues related to particle exposure in workplaces and the general environment. Moreover, the journal recognizes that there are various situations where particles can pose a toxicological threat, such as the use of old materials in new applications or the introduction of new materials altogether. By encompassing all these disciplines, Particle and Fibre Toxicology provides a comprehensive source for research in this field.
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