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本文引用的文献

1
Mechanistic View of hnRNPA2 Low-Complexity Domain Structure, Interactions, and Phase Separation Altered by Mutation and Arginine Methylation.hnRNPA2 低复杂度结构域的作用机制、突变和精氨酸甲基化改变的相互作用和相分离。
Mol Cell. 2018 Feb 1;69(3):465-479.e7. doi: 10.1016/j.molcel.2017.12.022. Epub 2018 Jan 18.

聚泛素化调节应激颗粒的动态变化、疾病相关 RNA 结合蛋白的液-液相分离和神经毒性。

PARylation regulates stress granule dynamics, phase separation, and neurotoxicity of disease-related RNA-binding proteins.

机构信息

Interdisciplinary Research Center on Biology and Chemistry, Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, Shanghai, 201210, China.

University of Chinese Academy of Sciences, Beijing, 100049, China.

出版信息

Cell Res. 2019 Mar;29(3):233-247. doi: 10.1038/s41422-019-0141-z. Epub 2019 Feb 6.

DOI:10.1038/s41422-019-0141-z
PMID:30728452
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6460439/
Abstract

Mutations in RNA-binding proteins (RBPs) localized in ribonucleoprotein (RNP) granules, such as hnRNP A1 and TDP-43, promote aberrant protein aggregation, which is a pathological hallmark of various neurodegenerative diseases, such as amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). Protein posttranslational modifications (PTMs) are known to regulate RNP granules. In this study, we investigate the function of poly(ADP-ribosyl)ation (PARylation), an important PTM involved in DNA damage repair and cell death, in RNP granule-related neurodegeneration. We reveal that PARylation levels are a major regulator of the assembly-disassembly dynamics of RNP granules containing disease-related RBPs, hnRNP A1 and TDP-43. We find that hnRNP A1 can both be PARylated and bind to PARylated proteins or poly(ADP-ribose) (PAR). We further uncover that PARylation of hnRNP A1 at K298 controls its nucleocytoplasmic transport, whereas PAR-binding via the PAR-binding motif (PBM) of hnRNP A1 regulates its association with stress granules. Moreover, we reveal that PAR not only dramatically enhances the liquid-liquid phase separation of hnRNP A1, but also promotes the co-phase separation of hnRNP A1 and TDP-43 in vitro and their interaction in vivo. Finally, both genetic and pharmacological inhibition of PARP mitigates hnRNP A1- and TDP-43-mediated neurotoxicity in cell and Drosophila models of ALS. Together, our findings suggest a novel and crucial role for PARylation in regulating the dynamics of RNP granules, and that dysregulation in PARylation and PAR levels may contribute to ALS disease pathogenesis by promoting protein aggregation.

摘要

RNA 结合蛋白(RBPs)在核糖核蛋白(RNP)颗粒中的突变,如 hnRNP A1 和 TDP-43,促进异常蛋白聚集,这是各种神经退行性疾病的病理标志,如肌萎缩侧索硬化症(ALS)和额颞叶痴呆(FTD)。已知蛋白质翻译后修饰(PTMs)可调节 RNP 颗粒。在这项研究中,我们研究了多聚(ADP-核糖基)化(PARylation)的功能,PARylation 是一种参与 DNA 损伤修复和细胞死亡的重要 PTM,与 RNP 颗粒相关的神经退行性变有关。我们揭示了 PARylation 水平是包含疾病相关 RBPs、hnRNP A1 和 TDP-43 的 RNP 颗粒组装-解组装动力学的主要调节剂。我们发现 hnRNP A1 既可以被 PARylation,也可以与 PARylated 蛋白或聚(ADP-核糖)(PAR)结合。我们进一步发现 hnRNP A1 上 K298 的 PARylation 控制其核质转运,而 hnRNP A1 的 PAR 结合基序(PBM)的 PAR 结合调节其与应激颗粒的关联。此外,我们揭示了 PAR 不仅显著增强 hnRNP A1 的液-液相分离,而且促进 hnRNP A1 和 TDP-43 在体外的共相分离及其在体内的相互作用。最后,PARP 的遗传和药理学抑制均减轻了细胞和 ALS 果蝇模型中 hnRNP A1 和 TDP-43 介导的神经毒性。总之,我们的发现表明 PARylation 在调节 RNP 颗粒动力学方面具有新的和关键作用,PARylation 和 PAR 水平的失调可能通过促进蛋白质聚集而导致 ALS 疾病的发病机制。