在果蝇中，神经系统特异性微小RNA-124a的稳态水平受dFMR1调控。

The steady-state level of the nervous-system-specific microRNA-124a is regulated by dFMR1 in Drosophila.

作者信息

Xu Xia-Lian, Li Yan, Wang Fay, Gao Fen-Biao

机构信息

Gladstone Institute of Neurological Disease and Department of Neurology, University of California, San Francisco, California 94158, USA.

出版信息

J Neurosci. 2008 Nov 12;28(46):11883-9. doi: 10.1523/JNEUROSCI.4114-08.2008.

DOI:10.1523/JNEUROSCI.4114-08.2008

PMID:19005053

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2605156/

Abstract

Fragile X syndrome is the most common form of inherited mental retardation caused by loss of the fragile X mental retardation protein 1 (FMRP). The detailed molecular pathways underlying the pathogenesis of this disorder remain incompletely understood. Here, we show that miR-124a, a nervous-system-specific miRNA, is associated with the Drosophila homolog of FMRP (dFMR1) in vivo. Ectopic expression of wild-type but not mutant miR-124a precursors decreased dendritic branching of dendritic arborization sensory neurons, which was partially rescued by the loss of dFMR1 activity, suggesting that the biogenesis and/or function of miR-124a are partially dependent on dFMR1. Indeed, in contrast with the complete loss of mature miR-124a in Dicer-1 mutants, steady-state levels of endogenous or ectopically expressed mature miR-124a were partially reduced in dfmr1 mutants, whereas the level of pre-miR-124a increased. This effect could be explained in part by the reduced abundance of the Dicer-1-Ago1 complex in the absence of dFMR1. These findings suggest a modulatory role for dFMR1 to maintain proper levels of miRNAs during neuronal development.

摘要

脆性X综合征是由脆性X智力低下蛋白1（FMRP）缺失引起的最常见的遗传性智力障碍形式。该疾病发病机制背后的详细分子途径仍未完全明确。在此，我们表明miR-124a，一种神经系统特异性的微小RNA，在体内与FMRP的果蝇同源物（dFMR1）相关联。野生型而非突变型miR-124a前体的异位表达减少了树突状分支感觉神经元的树突分支，dFMR1活性缺失可部分挽救这种情况，这表明miR-124a的生物合成和/或功能部分依赖于dFMR1。实际上，与Dicer-1突变体中成熟miR-124a完全缺失相反，dfmr1突变体中内源性或异位表达的成熟miR-124a的稳态水平部分降低，而pre-miR-124a的水平升高。这种效应部分可以通过在没有dFMR1的情况下Dicer-1-Ago1复合物丰度降低来解释。这些发现表明dFMR1在神经元发育过程中对维持适当的微小RNA水平具有调节作用。

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