microRNA-124 regulates Notch and NeuroD1 to mediate transition states of neuronal development

IF 2.7 4区 医学 Q2 DEVELOPMENTAL BIOLOGY
Kalin D. Konrad, Jia L. Song
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引用次数: 2

Abstract

MicroRNAs regulate gene expression by destabilizing target mRNA and/or inhibiting translation in animal cells. The ability to mechanistically dissect miR-124′s function during specification, differentiation, and maturation of neurons during development within a single system has not been accomplished. Using the sea urchin embryo, we take advantage of the manipulability of the embryo and its well-documented gene regulatory networks (GRNs). We incorporated NeuroD1 as part of the sea urchin neuronal GRN and determined that miR-124 inhibition resulted in aberrant gut contractions, swimming velocity, and neuronal development. Inhibition of miR-124 resulted in an increased number of cells expressing transcription factors (TFs) associated with progenitor neurons and a concurrent decrease of mature and functional neurons. Results revealed that in the early blastula/gastrula stages, miR-124 regulates undefined factors during neuronal specification and differentiation. In the late gastrula/larval stages, miR-124 regulates Notch and NeuroD1 during the transition between neuronal differentiation and maturation. Overall, we have improved the neuronal GRN and identified miR-124 to play a prolific role in regulating various transitions of neuronal development.

microRNA-124调节Notch和NeuroD1介导神经元发育的过渡状态
在动物细胞中,MicroRNAs通过破坏靶mRNA和/或抑制翻译来调节基因表达。机械解剖miR-124在单个系统内发育过程中神经元的规范、分化和成熟过程中的功能的能力尚未完成。利用海胆胚胎,我们利用胚胎的可操控性及其充分记录的基因调控网络(grn)。我们将NeuroD1作为海胆神经元GRN的一部分,并确定miR-124抑制导致异常的肠道收缩、游泳速度和神经元发育。抑制miR-124导致表达与祖神经元相关的转录因子(tf)的细胞数量增加,同时成熟和功能神经元减少。结果显示,在囊胚/原胚早期阶段,miR-124调节神经元规范和分化过程中的未定义因子。在原肠胚/幼虫后期,miR-124在神经元分化和成熟之间的过渡期间调节Notch和NeuroD1。总的来说,我们已经改进了神经元GRN,并发现miR-124在调节神经元发育的各种转变中发挥了丰富的作用。
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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来源期刊
Developmental Neurobiology
Developmental Neurobiology 生物-发育生物学
CiteScore
6.50
自引率
0.00%
发文量
45
审稿时长
4-8 weeks
期刊介绍: Developmental Neurobiology (previously the Journal of Neurobiology ) publishes original research articles on development, regeneration, repair and plasticity of the nervous system and on the ontogeny of behavior. High quality contributions in these areas are solicited, with an emphasis on experimental as opposed to purely descriptive work. The Journal also will consider manuscripts reporting novel approaches and techniques for the study of the development of the nervous system as well as occasional special issues on topics of significant current interest. We welcome suggestions on possible topics from our readers.
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