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哺乳动物的Staufen 1被募集到应激颗粒中并损害其组装。

Mammalian Staufen 1 is recruited to stress granules and impairs their assembly.

作者信息

Thomas María Gabriela, Martinez Tosar Leandro J, Desbats María Andrea, Leishman Claudia C, Boccaccio Graciela L

机构信息

Fundación Instituto Leloir, Av. Patricias Argentinas 435, Buenos Aires, Argentina.

出版信息

J Cell Sci. 2009 Feb 15;122(Pt 4):563-73. doi: 10.1242/jcs.038208.

DOI:10.1242/jcs.038208
PMID:19193871
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2714435/
Abstract

Stress granules are cytoplasmic mRNA-silencing foci that form transiently during the stress response. Stress granules harbor abortive translation initiation complexes and are in dynamic equilibrium with translating polysomes. Mammalian Staufen 1 (Stau1) is a ubiquitous double-stranded RNA-binding protein associated with polysomes. Here, we show that Stau1 is recruited to stress granules upon induction of endoplasmic reticulum or oxidative stress as well in stress granules induced by translation initiation blockers. We found that stress granules lacking Stau1 formed in cells depleted of this molecule, indicating that Stau1 is not an essential component of stress granules. Moreover, Stau1 knockdown facilitated stress granule formation upon stress induction. Conversely, transient transfection of Stau1 impaired stress granule formation upon stress or pharmacological initiation arrest. The inhibitory capacity of Stau1 mapped to the amino-terminal half of the molecule, a region known to bind to polysomes. We found that the fraction of polysomes remaining upon stress induction was enriched in Stau1, and that Stau1 overexpression stabilized polysomes against stress. We propose that Stau1 is involved in recovery from stress by stabilizing polysomes, thus helping stress granule dissolution.

摘要

应激颗粒是在应激反应期间短暂形成的细胞质mRNA沉默病灶。应激颗粒含有流产性翻译起始复合物,并与正在翻译的多核糖体处于动态平衡。哺乳动物的Staufen 1(Stau1)是一种与多核糖体相关的普遍存在的双链RNA结合蛋白。在此,我们表明,在内质网应激或氧化应激诱导后,以及在翻译起始阻滞剂诱导的应激颗粒中,Stau1会被招募到应激颗粒中。我们发现,在缺乏该分子的细胞中形成了缺乏Stau1的应激颗粒,这表明Stau1不是应激颗粒的必需成分。此外,敲低Stau1会促进应激诱导时应激颗粒的形成。相反,瞬时转染Stau1会损害应激或药理学起始阻滞时应激颗粒的形成。Stau1的抑制能力定位于该分子的氨基末端一半,这是一个已知与多核糖体结合的区域。我们发现,应激诱导后剩余的多核糖体部分富含Stau1,并且Stau1的过表达使多核糖体在应激下稳定。我们提出,Stau1通过稳定多核糖体参与应激恢复,从而帮助应激颗粒溶解。

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