应激颗粒:与mRNA翻译调控途径相关的应激诱导的细胞质mRNPs室

P. Adjibade, R. Mazroui
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摘要

应激颗粒(Stress granules, SG)是一种宏观复合物,当mrna一般翻译的起始步骤停止时,它们在真核细胞的细胞质中以相分离和动态的RNA生物凝聚体的形式聚集。这主要是细胞对环境(如辐射、化学药物暴露)、病理(如病毒治疗)、生理(如氧、氨基酸和葡萄糖剥夺)或治疗(如抗癌药物治疗)翻译应激的适应性反应。当翻译起始被胁迫非依赖性事件阻断时,包括特异性翻译起始因子和rna结合蛋白活性的改变,也会形成SG。胁迫依赖性和独立的翻译起始抑制都会导致非翻译mrna的积累,这些mrna被认为是SG的组成部分。与此一致的是,SG组装的体内实验和基于体外的SG样生物凝聚物组装研究支持了非翻译mRNA的积累在启动SG形成中的基本作用,然后进一步促进其抑制,可能是一种反馈调节机制。SG在积极抑制相关mrna翻译中的潜在作用已经得到了许多功能研究的支持,这些研究表明SG是RNA稳态的关键调控位点,特别是在应激状态下。然而,SG环境限制相关mrna翻译的观点受到了挑战,研究表明,在SG不存在和不存在的情况下,应力诱导的翻译抑制同样会发生,这导致了SG形成和翻译抑制是不耦合过程的新概念。尽管对SG的mRNA招募是否有助于其翻译抑制仍有争议,但最近的研究报道了SG中报告mRNA的翻译,这表明SG具有积极的翻译作用。在这篇综述中,我们描述了调节SG生物学的主要翻译信号通路,总结了支持RNA作为SG不可缺少的功能成分的现有数据,然后讨论了支持或不支持SG在逆境中负或正调节翻译的证据。
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Stress granules: stress-induced cytoplasmic mRNPs compartments linked to mRNA translational regulatory pathways
Stress granules (SG) are macro-complexes that assemble as phase-separated and dynamic RNA biocondensates in the cytoplasm of the eukaryotic cell when the initiation step of the general translation of mRNAs is stalled. This occurs mainly as an adaptive cell response to either environmental (i.e., radiation, exposure to chemical drugs), pathological (i.e., viral treatment), physiological (i.e., oxygen-, amino acids-, and glucose-deprivation), or therapeutic (i.e., treatment with anti-cancer drugs) translational stress. SG also formed when translation initiation is blocked through stress-independent events including alteration of the activities of specific translation initiation factors and RNA-binding proteins. Both stress-dependent and–independent inhibition of translation initiation results in the accumulation of untranslated mRNAs, considered as integral components of SG. Consistently, in vivo assays of SG assembly combined with in vitro-based assembly of SG-like biocondensates studies support a fundamental role of the accumulation of untranslated mRNA in initiating the formation of SG, which then further promote their repression, potentially in a feed-back regulatory mechanism. The potential role of SG in actively repressing translation of associated mRNAs has been supported by a number of functional studies, establishing SG as critical regulatory sites of RNA homeostasis, in particular during stress. The view that the SG environment restricts translation of associated mRNAs was however challenged in studies showing that stress-induced translation repression can occur similarly in absence and presence of SG, leading to the emerging concept that formation of SG and translation repression are uncoupled processes. While it still a debate if mRNA recruitment to SG contributes to their translation repression, recent finding reported translation of reporter mRNAs in SG, suggesting rather an active translational role of SG. In this review, we describe the main translational signaling pathways that regulate the biology of SG, summarize current data supporting RNA as an integral functional component of SG, and then discuss evidence supporting or not the role of SG in regulating translation either negatively or positively during stress.
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