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TAp73 小鼠大脑中持续的蛋白质合成和 eEF2K 水平降低:一种可能的代偿机制。

Sustained protein synthesis and reduced eEF2K levels in TAp73 mice brain: a possible compensatory mechanism.

机构信息

a MRC Toxicology Unit , University of Cambridge , Rome , UK.

b Department of Life Sciences , Ben Gurion University in the Negev , Beer Sheva , Israel.

出版信息

Cell Cycle. 2018;17(23):2637-2643. doi: 10.1080/15384101.2018.1553341. Epub 2018 Dec 4.

DOI:10.1080/15384101.2018.1553341
PMID:30507330
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6300112/
Abstract

The transcription factor p73 is a member of the p53 family, of which the transactivation domain containing isoform (TAp73) plays key roles in brain development and neuronal stem cells. TAp73 also facilitates homoeostasis and prevents oxidative damage in vivo by inducing the expression of its target genes. Recently, we found that in addition to its role in regulation of transcription, TAp73 also affects mRNA translation. In cultured cells, acute TAp73 depletion activates eEF2K, which phosphorylates eEF2 reducing mRNA translation elongation. As a consequence, there is a reduction in global proteins synthesis rates and reprogramming of the translatome, leading to a selective decrease in the translation of rRNA processing factors. Given the dramatic effects of Tap73 depletion in vitro it was important to determine whether similar effects were observed in vivo. Here, we report the surprising finding that in brains of TAp73 KO mice there is a reduced level of eEF2K, which allows protein synthesis rates to be maintained suggesting a compensation model. These data provide new insights to the role of TAp73 in translation regulation and the eEF2K pathway in the brain.

摘要

转录因子 p73 是 p53 家族的一员,其包含转录激活结构域的同型物(TAp73)在大脑发育和神经元干细胞中发挥关键作用。TAp73 还通过诱导其靶基因的表达来促进体内的稳态和防止氧化损伤。最近,我们发现 TAp73 除了在转录调控中的作用外,还影响 mRNA 的翻译。在培养的细胞中,急性 TAp73 耗竭激活 eEF2K,磷酸化 eEF2 减少 mRNA 翻译延伸。结果,导致总蛋白质合成率降低和翻译组重编程,导致 rRNA 加工因子的翻译选择性降低。鉴于 TAp73 耗竭在体外的显著影响,确定在体内是否观察到类似的影响非常重要。在这里,我们报告了一个令人惊讶的发现,即 TAp73 KO 小鼠大脑中的 eEF2K 水平降低,这使得蛋白质合成率得以维持,表明存在一种补偿模型。这些数据为 TAp73 在翻译调控中的作用以及 eEF2K 通路在大脑中的作用提供了新的见解。

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