在双链RNA反应中，核糖核酸酶L迅速驱动蛋白质合成停滞，而不降解翻译机制。

Rapid RNase L-driven arrest of protein synthesis in the dsRNA response without degradation of translation machinery.

作者信息

Donovan Jesse, Rath Sneha, Kolet-Mandrikov David, Korennykh Alexei

机构信息

Department of Molecular Biology, Princeton University, Princeton, New Jersey 08544, USA.

Department of Molecular Biology, Princeton University, Princeton, New Jersey 08544, USA

出版信息

RNA. 2017 Nov;23(11):1660-1671. doi: 10.1261/rna.062000.117. Epub 2017 Aug 14.

DOI:10.1261/rna.062000.117

PMID:28808124

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5648034/

Abstract

Mammalian cells respond to double-stranded RNA (dsRNA) by activating a translation-inhibiting endoribonuclease, RNase L. Consensus in the field indicates that RNase L arrests protein synthesis by degrading ribosomal RNAs (rRNAs) and messenger RNAs (mRNAs). However, here we provide evidence for a different and far more efficient mechanism. By sequencing abundant RNA fragments generated by RNase L in human cells, we identify site-specific cleavage of two groups of noncoding RNAs: Y-RNAs, whose function is poorly understood, and cytosolic tRNAs, which are essential for translation. Quantitative analysis of human RNA cleavage versus nascent protein synthesis in lung carcinoma cells shows that RNase L stops global translation when tRNAs, as well as rRNAs and mRNAs, are still intact. Therefore, RNase L does not have to degrade the translation machinery to stop protein synthesis. Our data point to a rapid mechanism that transforms a subtle RNA cleavage into a cell-wide translation arrest.

摘要

哺乳动物细胞通过激活一种抑制翻译的内切核糖核酸酶RNase L来响应双链RNA（dsRNA）。该领域的共识表明，RNase L通过降解核糖体RNA（rRNA）和信使RNA（mRNA）来阻止蛋白质合成。然而，我们在此提供了一种不同且效率更高的机制的证据。通过对人类细胞中由RNase L产生的丰富RNA片段进行测序，我们确定了两组非编码RNA的位点特异性切割：功能尚不清楚的Y-RNA和对翻译至关重要的胞质tRNA。对肺癌细胞中人类RNA切割与新生蛋白质合成的定量分析表明，当tRNA以及rRNA和mRNA仍然完整时，RNase L会停止整体翻译。因此，RNase L不必降解翻译机制来停止蛋白质合成。我们的数据指向一种快速机制，该机制将微妙的RNA切割转化为全细胞范围的翻译停滞。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6d90/5648034/0e54f946174e/1660f01.jpg

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在双链RNA反应中，核糖核酸酶L迅速驱动蛋白质合成停滞，而不降解翻译机制。

Rapid RNase L-driven arrest of protein synthesis in the dsRNA response without degradation of translation machinery.

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