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抑制无意义介导的 RNA 降解可激活自噬。

Inhibition of nonsense-mediated RNA decay activates autophagy.

机构信息

Department of Biochemistry and Molecular Pharmacology, New York University School of Medicine, New York, NY,USA.

出版信息

Mol Cell Biol. 2013 Jun;33(11):2128-35. doi: 10.1128/MCB.00174-13. Epub 2013 Mar 18.

DOI:10.1128/MCB.00174-13
PMID:23508110
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3648072/
Abstract

Nonsense-mediated RNA decay (NMD) is an mRNA surveillance mechanism which rapidly degrades select cytoplasmic mRNAs. We and others have shown that NMD is a dynamically regulated process inhibited by amino acid deprivation, hypoxia, and other cellular stresses commonly generated by the tumor microenvironment. This inhibition of NMD can result in the accumulation of misfolded, mutated, and aggregated proteins, but how cells adapt to these aberrant proteins is unknown. Here we demonstrate that the inhibition of NMD activates autophagy, an established protein surveillance mechanism, both in vitro and in vivo. Conversely, the hyperactivation of NMD blunts the induction of autophagy in response to a variety of cellular stresses. The regulation of autophagy by NMD is due, in part, to stabilization of the documented NMD target ATF4. NMD inhibition increases intracellular amino acids, a hallmark of autophagy, and the concomitant inhibition of autophagy and NMD, either molecularly or pharmacologically, leads to synergistic cell death. Together these studies indicate that autophagy is an adaptive response to NMD inhibition and uncover a novel relationship between an mRNA surveillance system and a protein surveillance system, with important implications for the treatment of cancer.

摘要

无意义介导的 RNA 降解 (NMD) 是一种 mRNA 监控机制,可快速降解特定的细胞质 mRNA。我们和其他人已经表明,NMD 是一个动态调节的过程,受氨基酸剥夺、缺氧和肿瘤微环境中常见的其他细胞应激的抑制。这种 NMD 的抑制可能导致错误折叠、突变和聚集的蛋白质积累,但细胞如何适应这些异常蛋白质尚不清楚。在这里,我们证明 NMD 的抑制在体外和体内都激活了自噬,这是一种已建立的蛋白质监控机制。相反,NMD 的过度激活会削弱对各种细胞应激的自噬诱导。NMD 对自噬的调节部分归因于有文献记载的 NMD 靶标 ATF4 的稳定。NMD 抑制增加了细胞内氨基酸,这是自噬的一个标志,同时抑制自噬和 NMD,无论是在分子水平上还是在药理学水平上,都会导致协同细胞死亡。这些研究表明,自噬是对 NMD 抑制的一种适应性反应,并揭示了一个 mRNA 监控系统和一个蛋白质监控系统之间的新关系,对癌症的治疗具有重要意义。

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