FXR1a相关微小核糖核蛋白在细胞静止期介导的一种特殊翻译机制。

A Specialized Mechanism of Translation Mediated by FXR1a-Associated MicroRNP in Cellular Quiescence.

作者信息

Bukhari Syed I A, Truesdell Samuel S, Lee Sooncheol, Kollu Swapna, Classon Anthony, Boukhali Myriam, Jain Esha, Mortensen Richard D, Yanagiya Akiko, Sadreyev Ruslan I, Haas Wilhelm, Vasudevan Shobha

机构信息

Center for Cancer Research, Massachusetts General Hospital, Harvard Medical School, Boston, MA 02114, USA; Center for Regenerative Medicine, Massachusetts General Hospital, Harvard Medical School, Boston, MA 02114, USA.

Center for Cancer Research, Massachusetts General Hospital, Harvard Medical School, Boston, MA 02114, USA.

出版信息

Mol Cell. 2016 Mar 3;61(5):760-773. doi: 10.1016/j.molcel.2016.02.013.

DOI:10.1016/j.molcel.2016.02.013

PMID:26942679

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4811377/

Abstract

MicroRNAs predominantly decrease gene expression; however, specific mRNAs are translationally upregulated in quiescent (G0) mammalian cells and immature Xenopus laevis oocytes by an FXR1a-associated microRNA-protein complex (microRNP) that lacks the microRNP repressor, GW182. Their mechanism in these conditions of decreased mTOR signaling, and therefore reduced canonical (cap-and-poly(A)-tail-mediated) translation, remains undiscovered. Our data reveal that mTOR inhibition in human THP1 cells enables microRNA-mediated activation. Activation requires shortened/no poly(A)-tail targets; polyadenylated mRNAs are partially activated upon PAIP2 overexpression, which interferes with poly(A)-bound PABP, precluding PABP-enhanced microRNA-mediated inhibition and canonical translation. Consistently, inhibition of PARN deadenylase prevents activation. P97/DAP5, a homolog of canonical translation factor, eIF4G, which lacks PABP- and cap binding complex-interacting domains, is required for activation, and thereby for the oocyte immature state. P97 interacts with 3' UTR-binding FXR1a-associated microRNPs and with PARN, which binds mRNA 5' caps, forming a specialized complex to translate recruited mRNAs in these altered canonical translation conditions.

摘要

微小RNA主要降低基因表达；然而，在静止期（G0期）的哺乳动物细胞和未成熟的非洲爪蟾卵母细胞中，一种缺乏微小核糖核蛋白阻遏物GW182的FXR1a相关微小RNA - 蛋白质复合物（微小核糖核蛋白）会使特定的信使核糖核酸在翻译水平上上调。在这些哺乳动物雷帕霉素靶蛋白（mTOR）信号传导减弱、因而经典（帽状结构和多聚腺苷酸尾介导）翻译减少的情况下，其作用机制仍未被发现。我们的数据表明，在人THP1细胞中抑制mTOR可实现微小RNA介导的激活。激活需要缩短的/无多聚腺苷酸尾的靶标；多聚腺苷酸化的信使核糖核酸在PAIP2过表达时会被部分激活，PAIP2会干扰与多聚腺苷酸结合的聚腺苷酸结合蛋白（PABP），从而阻止PABP增强的微小RNA介导的抑制作用和经典翻译。同样，抑制PARN去腺苷酸化酶可防止激活。P97/DAP5是经典翻译因子eIF4G的同源物，它缺乏与PABP和帽结合复合物相互作用的结构域，激活需要它，因此它对于卵母细胞的未成熟状态也很重要。P97与3'非翻译区结合的FXR1a相关微小核糖核蛋白相互作用，并与结合信使核糖核酸5'帽状结构的PARN相互作用，形成一种特殊的复合物，以便在这些改变的经典翻译条件下翻译被招募的信使核糖核酸。

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FXR1a相关微小核糖核蛋白在细胞静止期介导的一种特殊翻译机制。

A Specialized Mechanism of Translation Mediated by FXR1a-Associated MicroRNP in Cellular Quiescence.

作者信息

Bukhari Syed I A, Truesdell Samuel S, Lee Sooncheol, Kollu Swapna, Classon Anthony, Boukhali Myriam, Jain Esha, Mortensen Richard D, Yanagiya Akiko, Sadreyev Ruslan I, Haas Wilhelm, Vasudevan Shobha

机构信息

Center for Cancer Research, Massachusetts General Hospital, Harvard Medical School, Boston, MA 02114, USA.

出版信息

Mol Cell. 2016 Mar 3;61(5):760-773. doi: 10.1016/j.molcel.2016.02.013.

DOI:10.1016/j.molcel.2016.02.013

PMID:26942679

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4811377/

Abstract

摘要

FXR1a相关微小核糖核蛋白在细胞静止期介导的一种特殊翻译机制。

A Specialized Mechanism of Translation Mediated by FXR1a-Associated MicroRNP in Cellular Quiescence.

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FXR1a相关微小核糖核蛋白在细胞静止期介导的一种特殊翻译机制。

A Specialized Mechanism of Translation Mediated by FXR1a-Associated MicroRNP in Cellular Quiescence.

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