微RNA介导的发育中神经管中BMP信号的调控

Partha Mukhopadhyay, Ratnam S Seelan, Robert M Greene, M Michele Pisano
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引用次数: 0

摘要

背景:神经管(NT)的形态发生有赖于众多基因在时间空间上的正确表达,以及各种信号级联和基因调控网络之间的同步串扰,从而控制关键的细胞过程。微小RNA(miRNA)是一组小型非编码调控RNA,在胚胎发生过程中发挥着指导关键规范通路的决定性作用:为了理解miRNA调控NT形态发生的机理基础,我们在本研究中鉴定了神经形成关键阶段与BMP信号相关的各种miRNA及其靶mRNA:方法:我们先前利用高灵敏度、高覆盖率的芯片研究了神经发育关键期(妊娠天数(GD)8.5、9.0和9.5)中几种miRNA的表达。本研究利用生物信息学分析鉴定了胚胎 NT 中针对与骨形态发生蛋白(BMP)信号通路相关的信使 RNA(mRNA)的 miRNA 差异表达(DE)。从发育中的NT提取的RNA与miRNA和mRNA阵列杂交,以评估miRNA与mRNA之间的相互作用:结果:生物信息学分析发现了几个DE miRNA,它们靶向编码BMP信号通路成员(和相关蛋白)的mRNA,BMP信号通路是正常NT发育的核心信号级联:鉴定与 BMP 信号转导相关的 miRNA 及其 mRNA 靶标有助于更好地了解 NT 正常发育的关键表观遗传机制以及 NT 缺陷的发病机制。目前的研究支持这样一种观点,即 miRNA 通过调节 BMP 信号级联而成为神经管形态发生的关键调控因子。因此,这些 miRNA 在神经发育过程中的表达改变可能会导致 NT 缺陷。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MicroRNA-Mediated Regulation of BMP Signaling in the Developing Neural Tube.

Background: Neural tube (NT) morphogenesis is reliant on the proper temporospatial expression of numerous genes and synchronized crosstalk between diverse signaling cascades and gene regulatory networks governing key cellular processes. MicroRNAs (miRNAs), a group of small non-coding regulatory RNAs, execute defining roles in directing key canonical pathways during embryogenesis.

Objective: In order to comprehend the mechanistic underpinnings of miRNA regulation of NT morphogenesis, we have identified in the current study various miRNAs and their target mRNAs associated with BMP signaling during critical stages of neurulation.

Methods: We previously demonstrated the expression of several miRNAs during the critical stages of neurulation (gestational days (GD) 8.5, 9.0, and 9.5) employing high-sensitivity, high-coverage microarrays. In the present study, bioinformatic analyses were used to identify miRNAs differentially expressed (DE) in the embryonic NT that target messenger RNAs (mRNAs) associated with the bone morphogenetic protein (BMP) signaling pathway. RNAs extracted from the developing NT were hybridized to both miRNA and mRNA arrays to evaluate miRNA-mRNA interactions.

Results: Bioinformatic analysis identified several DE miRNAs that targeted mRNAs encoding members of (and proteins associated with) the BMP signaling pathway - a signaling cascade central to normal NT development.

Conclusion: Identification of the miRNAs and their mRNA targets associated with BMP signaling facilitates a better understanding of the crucial epigenetic mechanisms underlying normal NT development as well as the pathogenesis of NT defects. The current study supports the notion that miRNAs function as key regulators of neural tube morphogenesis via modulation of the BMP signaling cascade. Altered expression of these miRNAs during neurulation may therefore result in NT defects.

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