含有Alu元件的RNA维持核仁结构和功能。

Alu element-containing RNAs maintain nucleolar structure and function.

作者信息

Caudron-Herger Maïwen, Pankert Teresa, Seiler Jeanette, Németh Attila, Voit Renate, Grummt Ingrid, Rippe Karsten

机构信息

Genome Organization & Function, German Cancer Research Center (DKFZ) Bioquant Center, Heidelberg, Germany

Genome Organization & Function, German Cancer Research Center (DKFZ) Bioquant Center, Heidelberg, Germany.

出版信息

EMBO J. 2015 Nov 12;34(22):2758-74. doi: 10.15252/embj.201591458. Epub 2015 Oct 13.

DOI:10.15252/embj.201591458

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4682651/

Abstract

Non-coding RNAs play a key role in organizing the nucleus into functional subcompartments. By combining fluorescence microscopy and RNA deep-sequencing-based analysis, we found that RNA polymerase II transcripts originating from intronic Alu elements (aluRNAs) were enriched in the nucleolus. Antisense-oligo-mediated depletion of aluRNAs or drug-induced inhibition of RNA polymerase II activity disrupted nucleolar structure and impaired RNA polymerase I-dependent transcription of rRNA genes. In contrast, overexpression of a prototypic aluRNA sequence increased both nucleolus size and levels of pre-rRNA, suggesting a functional link between aluRNA, nucleolus integrity and pre-rRNA synthesis. Furthermore, we show that aluRNAs interact with nucleolin and target ectopic genomic loci to the nucleolus. Our study suggests an aluRNA-based mechanism that links RNA polymerase I and II activities and modulates nucleolar structure and rRNA production.

摘要

非编码RNA在将细胞核组织成功能亚区室中发挥关键作用。通过结合荧光显微镜和基于RNA深度测序的分析，我们发现源自内含子Alu元件的RNA聚合酶II转录本（aluRNA）在核仁中富集。反义寡核苷酸介导的aluRNA耗竭或药物诱导的RNA聚合酶II活性抑制破坏了核仁结构，并损害了RNA聚合酶I依赖性rRNA基因的转录。相反，原型aluRNA序列的过表达增加了核仁大小和前体rRNA水平，表明aluRNA、核仁完整性和前体rRNA合成之间存在功能联系。此外，我们表明aluRNA与核仁素相互作用，并将异位基因组位点靶向核仁。我们的研究提出了一种基于aluRNA的机制，该机制连接RNA聚合酶I和II的活性，并调节核仁结构和rRNA产生。

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