脱乙酰酶HDAC6是参与应激反应的应激颗粒的一种新型关键成分。

The deacetylase HDAC6 is a novel critical component of stress granules involved in the stress response.

作者信息

Kwon Sohee, Zhang Yu, Matthias Patrick

机构信息

Friedrich Miescher Institute for Biomedical Research, Novartis Research Foundation, 4058 Basel, Switzerland.

出版信息

Genes Dev. 2007 Dec 15;21(24):3381-94. doi: 10.1101/gad.461107.

DOI:10.1101/gad.461107

PMID:18079183

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2113037/

Abstract

An essential part of the cellular response to environmental stress is a reversible translational suppression, taking place in dynamic cytoplasmic structures called stress granules (SGs). We discovered that HDAC6, a cytoplasmic deacetylase that acts on tubulin and HSP90 and also binds ubiquitinated proteins with high affinity, is a novel critical SG component. We found that HDAC6 interacts with another SG protein, G3BP (Ras-GTPase-activating protein SH3 domain-binding protein 1), and localizes to SGs under all stress conditions tested. We show that pharmacological inhibition or genetic ablation of HDAC6 abolishes SG formation. Intriguingly, we found that the ubiquitin-binding domain of HDAC6 is essential and that SGs are strongly positive for ubiquitin. Moreover, disruption of microtubule arrays or impairment of motor proteins also prevents formation of SGs. These findings identify HDAC6 as a central component of the stress response, and suggest that it coordinates the formation of SGs by mediating the motor-protein-driven movement of individual SG components along microtubules.

摘要

细胞对环境应激反应的一个重要部分是在称为应激颗粒（SGs）的动态细胞质结构中发生的可逆性翻译抑制。我们发现，HDAC6是一种作用于微管蛋白和HSP90的细胞质脱乙酰酶，还能高亲和力结合泛素化蛋白，它是一种新型关键的SG成分。我们发现HDAC6与另一种SG蛋白G3BP（Ras-鸟苷三磷酸酶激活蛋白SH3结构域结合蛋白1）相互作用，并在所有测试的应激条件下定位到SGs。我们表明，HDAC6的药理抑制或基因敲除会消除SG的形成。有趣的是，我们发现HDAC6的泛素结合结构域至关重要，并且SGs对泛素呈强阳性。此外，微管阵列的破坏或运动蛋白的损伤也会阻止SGs的形成。这些发现确定HDAC6是应激反应的核心成分，并表明它通过介导单个SG成分沿微管的运动蛋白驱动运动来协调SGs的形成。

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HDAC6 controls major cell response pathways to cytotoxic accumulation of protein aggregates.组蛋白去乙酰化酶6（HDAC6）控制细胞对蛋白质聚集体细胞毒性积累的主要反应途径。

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