miR-421 通过直接靶向 MEF2D 加重帕金森病模型中的神经毒性并促进细胞死亡。

MiR-421 Aggravates Neurotoxicity and Promotes Cell Death in Parkinson's Disease Models by Directly Targeting MEF2D.

机构信息

Department of Neurology, Xi'an central hospital, No. 161 Xi Wu Road, Xi'an, 710000, Shaanxi, China.

出版信息

Neurochem Res. 2021 Feb;46(2):299-308. doi: 10.1007/s11064-020-03166-0. Epub 2020 Nov 12.

Abstract

Parkinson's disease (PD) is a severe neurodegenerative disease characterized by selective loss of dopaminergic neurons, which reduces quality of life of patients and poses a heavy burden to the society. The pathological mechanism of PD remains unclear, and increasing efforts are aimed to solve this problem. MiRNAs are a kind of small noncoding RNA regulating target gene expression. Previous studies have shown that dysregulation of miRNAs is involved in the development of PD. In the present study, we determined that miR-421 and MEF2D are increased and decreased, respectively, in a cellular model of PD. The data on the mechanism of action indicate that miR-421 directly binds to MEF2D mRNA and negatively regulates MEF2D expression. An increase in miR-421 disrupted the Bcl2/Bax system. Functional assays indicated that enhanced miR-421 promotes cell death by negative modulation of MEF2D expression. Inhibition of miR-421 or restoration of MEF2D protected neurons from neurotoxicity in cellular and animal models of PD. Our study is the first to demonstrate that miR-421 is decreased in PD models and to determine a novel putative mechanism of PD pathogenesis.

摘要

帕金森病（PD）是一种严重的神经退行性疾病，其特征是多巴胺能神经元的选择性丧失，降低了患者的生活质量，并给社会带来了沉重的负担。PD 的病理机制仍不清楚，人们正在努力解决这个问题。miRNAs 是一种调节靶基因表达的小非编码 RNA。先前的研究表明，miRNAs 的失调参与了 PD 的发生发展。在本研究中，我们确定 miR-421 在 PD 的细胞模型中增加，而 MEF2D 则减少。关于作用机制的数据表明，miR-421 可直接与 MEF2D mRNA 结合，并负调控 MEF2D 的表达。miR-421 的增加破坏了 Bcl2/Bax 系统。功能测定表明，增强的 miR-421 通过负调控 MEF2D 的表达促进细胞死亡。在 PD 的细胞和动物模型中，抑制 miR-421 或恢复 MEF2D 可保护神经元免受神经毒性。我们的研究首次证明了 miR-421 在 PD 模型中减少，并确定了 PD 发病机制的一个新的潜在机制。

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miR-421 通过直接靶向 MEF2D 加重帕金森病模型中的神经毒性并促进细胞死亡。

MiR-421 Aggravates Neurotoxicity and Promotes Cell Death in Parkinson's Disease Models by Directly Targeting MEF2D.

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