保守的Pbp1/Ataxin-2调节逆转录转座子活性，并将多聚谷氨酰胺扩展驱动的蛋白质聚集与控制寿命的核糖体DNA重复序列联系起来。

Conserved Pbp1/Ataxin-2 regulates retrotransposon activity and connects polyglutamine expansion-driven protein aggregation to lifespan-controlling rDNA repeats.

作者信息

Ostrowski Lauren A, Hall Amanda C, Szafranski Kirk J, Oshidari Roxanne, Abraham Karan J, Chan Janet N Y, Krustev Christian, Zhang Kevin, Wang Ashley, Liu Yupeng, Guo Ru, Mekhail Karim

机构信息

Department of Laboratory Medicine and Pathobiology, Faculty of Medicine, University of Toronto, Toronto, Ontario, M5G 1M1, Canada.

Canada Research Chairs Program, Faculty of Medicine, University of Toronto, Toronto, Ontario, M5G 1M1, Canada.

出版信息

Commun Biol. 2018 Nov 5;1:187. doi: 10.1038/s42003-018-0187-3. eCollection 2018.

DOI:10.1038/s42003-018-0187-3

PMID:30417124

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6218562/

Abstract

Ribosomal DNA (rDNA) repeat instability and protein aggregation are thought to be two major and independent drivers of cellular aging. Pbp1, the yeast ortholog of human ATXN2, maintains rDNA repeat stability and lifespan via suppression of RNA-DNA hybrids. ATXN2 polyglutamine expansion drives neurodegeneration causing spinocerebellar ataxia type 2 and promoting amyotrophic lateral sclerosis. Here, molecular characterization of Pbp1 revealed that its knockout or subjection to disease-modeling polyQ expansion represses Ty1 (Transposons of Yeast) retrotransposons by respectively promoting Trf4-depedendent RNA turnover and Ty1 Gag protein aggregation. This aggregation, but not its impact on retrotransposition, compromises rDNA repeat stability and shortens lifespan by hyper-activating Trf4-dependent turnover of intergenic ncRNA within the repeats. We uncover a function for the conserved Pbp1/ATXN2 proteins in the promotion of retrotransposition, create and describe powerful yeast genetic models of ATXN2-linked neurodegenerative diseases, and connect the major aging mechanisms of rDNA instability and protein aggregation.

摘要

核糖体DNA（rDNA）重复序列不稳定性和蛋白质聚集被认为是细胞衰老的两个主要且独立的驱动因素。Pbp1是人类ATXN2的酵母同源物，通过抑制RNA-DNA杂交体来维持rDNA重复序列的稳定性和寿命。ATXN2的聚谷氨酰胺扩增会引发神经退行性变，导致2型脊髓小脑共济失调，并促进肌萎缩侧索硬化症。在这里，对Pbp1的分子特征分析表明，其敲除或进行疾病模型的多聚谷氨酰胺扩增会分别通过促进Trf4依赖的RNA周转和Ty1 Gag蛋白聚集来抑制Ty1（酵母转座子）反转录转座子。这种聚集，而非其对反转录转座的影响，会损害rDNA重复序列的稳定性，并通过过度激活重复序列内基因间非编码RNA的Trf4依赖周转来缩短寿命。我们揭示了保守的Pbp1/ATXN2蛋白在促进反转录转座方面的功能，创建并描述了与ATXN2相关神经退行性疾病的强大酵母遗传模型，并将rDNA不稳定性和蛋白质聚集这两种主要的衰老机制联系起来。

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保守的Pbp1/Ataxin-2调节逆转录转座子活性，并将多聚谷氨酰胺扩展驱动的蛋白质聚集与控制寿命的核糖体DNA重复序列联系起来。

Conserved Pbp1/Ataxin-2 regulates retrotransposon activity and connects polyglutamine expansion-driven protein aggregation to lifespan-controlling rDNA repeats.

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