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细胞应激和导致肌萎缩侧索硬化症(ALS)的突变下游的微小RNA(miRNA)生物合成失调:一种ALS的新机制。

Dysregulated miRNA biogenesis downstream of cellular stress and ALS-causing mutations: a new mechanism for ALS.

作者信息

Emde Anna, Eitan Chen, Liou Lee-Loung, Libby Ryan T, Rivkin Natali, Magen Iddo, Reichenstein Irit, Oppenheim Hagar, Eilam Raya, Silvestroni Aurelio, Alajajian Betty, Ben-Dov Iddo Z, Aebischer Julianne, Savidor Alon, Levin Yishai, Sons Robert, Hammond Scott M, Ravits John M, Möller Thomas, Hornstein Eran

机构信息

Department of Molecular Genetics, Weizmann Institute of Science, Rehovot, Israel.

Department of Neurology, School of Medicine, University of Washington, Seattle, WA, USA.

出版信息

EMBO J. 2015 Nov 3;34(21):2633-51. doi: 10.15252/embj.201490493. Epub 2015 Sep 1.

DOI:10.15252/embj.201490493
PMID:26330466
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4641530/
Abstract

Interest in RNA dysfunction in amyotrophic lateral sclerosis (ALS) recently aroused upon discovering causative mutations in RNA-binding protein genes. Here, we show that extensive down-regulation of miRNA levels is a common molecular denominator for multiple forms of human ALS. We further demonstrate that pathogenic ALS-causing mutations are sufficient to inhibit miRNA biogenesis at the Dicing step. Abnormalities of the stress response are involved in the pathogenesis of neurodegeneration, including ALS. Accordingly, we describe a novel mechanism for modulating microRNA biogenesis under stress, involving stress granule formation and re-organization of DICER and AGO2 protein interactions with their partners. In line with this observation, enhancing DICER activity by a small molecule, enoxacin, is beneficial for neuromuscular function in two independent ALS mouse models. Characterizing miRNA biogenesis downstream of the stress response ties seemingly disparate pathways in neurodegeneration and further suggests that DICER and miRNAs affect neuronal integrity and are possible therapeutic targets.

摘要

最近,在发现RNA结合蛋白基因中的致病突变后,人们对肌萎缩侧索硬化症(ALS)中的RNA功能障碍产生了兴趣。在此,我们表明,miRNA水平的广泛下调是多种形式人类ALS的共同分子特征。我们进一步证明,致病性ALS致病突变足以在切割步骤抑制miRNA生物合成。应激反应异常参与包括ALS在内的神经退行性疾病的发病机制。因此,我们描述了一种在应激状态下调节微小RNA生物合成的新机制,该机制涉及应激颗粒的形成以及DICER和AGO2蛋白与其伙伴的相互作用的重新组织。与这一观察结果一致,通过小分子依诺沙星增强DICER活性对两个独立的ALS小鼠模型的神经肌肉功能有益。表征应激反应下游的miRNA生物合成将神经退行性疾病中看似不同的途径联系起来,并进一步表明DICER和miRNA影响神经元完整性,是可能的治疗靶点。

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