Links between mRNA splicing, mRNA quality control, and intellectual disability.

RNA & disease (Houston, Tex.) Pub Date : 2016-11-07 DOI:10.14800/RD.1448

Milo B. Fasken, A. Corbett

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引用次数: 14

Abstract

In recent years, the impairment of RNA binding proteins that play key roles in the post-transcriptional regulation of gene expression has been linked to numerous neurological diseases. These RNA binding proteins perform critical mRNA processing steps in the nucleus, including splicing, polyadenylation, and export. In many cases, these RNA binding proteins are ubiquitously expressed raising key questions about why only brain function is impaired. Recently, mutations in the ZC3H14 gene, encoding an evolutionarily conserved, polyadenosine RNA binding protein, have been linked to a nonsyndromic form of autosomal recessive intellectual disability. Thus far, research on ZC3H14 and its Nab2 orthologs in budding yeast and Drosophila reveals that ZC3H14/Nab2 is important for mRNA processing and neuronal patterning. Two recent studies now provide evidence that ZC3H14/Nab2 may function in the quality control of mRNA splicing and export and could help to explain the molecular defects that cause neuronal dysfunction and lead to an inherited form of intellectual disability. These studies on ZC3H14/Nab2 reveal new clues to the puzzle of why loss of the ubiquitously expressed ZC3H14 protein specifically affects neurons.

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mRNA剪接、mRNA质量控制与智力残疾之间的联系。

近年来，在基因表达转录后调控中起关键作用的RNA结合蛋白的损伤与许多神经系统疾病有关。这些RNA结合蛋白在细胞核中执行关键的mRNA加工步骤，包括剪接、聚腺苷酸化和输出。在许多情况下，这些RNA结合蛋白无处不在地表达，这就提出了为什么只有大脑功能受损的关键问题。最近，编码进化上保守的多腺苷RNA结合蛋白的ZC3H14基因突变与常染色体隐性智力残疾的非综合征形式有关。迄今为止，对出芽酵母和果蝇中ZC3H14及其Nab2同源物的研究表明，ZC3H14/Nab2在mRNA加工和神经元模式中起重要作用。最近的两项研究提供了证据，证明ZC3H14/Nab2可能在mRNA剪接和输出的质量控制中起作用，并有助于解释导致神经元功能障碍和导致遗传性智力残疾的分子缺陷。这些关于ZC3H14/Nab2的研究揭示了为什么普遍表达的ZC3H14蛋白的缺失特异性地影响神经元的新线索。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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RNA & disease (Houston, Tex.)

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审稿时长

6 weeks