协同的2-5A介导的mRNA衰变和转录重编程在双链RNA反应中调控蛋白质合成。

Concerted 2-5A-Mediated mRNA Decay and Transcription Reprogram Protein Synthesis in the dsRNA Response.

作者信息

Rath Sneha, Prangley Eliza, Donovan Jesse, Demarest Kaitlin, Wingreen Ned S, Meir Yigal, Korennykh Alexei

机构信息

Department of Molecular Biology, Princeton University, Princeton, NJ 08544, USA.

Department of Physics, Ben Gurion University, Beer-Sheva 84105, Israel.

出版信息

Mol Cell. 2019 Sep 19;75(6):1218-1228.e6. doi: 10.1016/j.molcel.2019.07.027. Epub 2019 Sep 4.

DOI:10.1016/j.molcel.2019.07.027

PMID:31494033

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6754276/

Abstract

Viral and endogenous double-stranded RNA (dsRNA) is a potent trigger for programmed RNA degradation by the 2-5A/RNase L complex in cells of all mammals. This 2-5A-mediated decay (2-5AMD) is a conserved stress response switching global protein synthesis from homeostasis to production of interferons (IFNs). To understand this mechanism, we examined 2-5AMD in human cells and found that it triggers polysome collapse characteristic of inhibited translation initiation. We determined that translation initiation complexes and ribosomes purified from translation-arrested cells remain functional. However, spike-in RNA sequencing (RNA-seq) revealed cell-wide decay of basal mRNAs accompanied by rapid accumulation of mRNAs encoding innate immune proteins. Our data attribute this 2-5AMD evasion to better stability of defense mRNAs and positive feedback in the IFN response amplified by RNase L-resistant molecules. We conclude that 2-5AMD and transcription act in concert to refill mammalian cells with defense mRNAs, thereby "prioritizing" the synthesis of innate immune proteins.

摘要

病毒双链RNA（dsRNA）和内源性双链RNA是所有哺乳动物细胞中由2-5A/核糖核酸酶L复合物引发程序性RNA降解的有效触发因素。这种由2-5A介导的衰变（2-5AMD）是一种保守的应激反应，可将整体蛋白质合成从稳态转换为干扰素（IFN）的产生。为了解这一机制，我们在人类细胞中研究了2-5AMD，发现它会引发抑制翻译起始所特有的多核糖体解体。我们确定，从翻译停滞的细胞中纯化出的翻译起始复合物和核糖体仍具有功能。然而，掺入RNA测序（RNA-seq）显示，基础mRNA在全细胞范围内发生衰变，同时编码先天免疫蛋白的mRNA迅速积累。我们的数据将这种2-5AMD逃避归因于防御性mRNA更好的稳定性以及由核糖核酸酶L抗性分子放大的IFN反应中的正反馈。我们得出结论，2-5AMD和转录协同作用，为哺乳动物细胞补充防御性mRNA，从而“优先”合成先天免疫蛋白。

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RNase L Reprograms Translation by Widespread mRNA Turnover Escaped by Antiviral mRNAs.核糖核酸酶L通过抗病毒mRNA逃避的广泛mRNA周转来重新编程翻译。

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Real-time 2-5A kinetics suggest that interferons β and λ evade global arrest of translation by RNase L.实时 2-5A 动力学表明干扰素β和λ逃避了 RNase L 对翻译的全局阻断。

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A Positive Feedback Amplifier Circuit That Regulates Interferon (IFN)-Stimulated Gene Expression and Controls Type I and Type II IFN Responses.一种正反馈放大器电路，可调节干扰素（IFN）刺激基因表达，并控制 I 型和 II 型 IFN 反应。

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