锌指转录因子REST/NRSF/XBR基因的神经元表达

Neuronal expression of zinc finger transcription factor REST/NRSF/XBR gene.

作者信息

Palm K, Belluardo N, Metsis M, Timmusk T

机构信息

Laboratory of Molecular Neurobiology, Department of Medical Biochemistry and Biophysics, Karolinska Institute, S-171 77 Stockholm, Sweden.

出版信息

J Neurosci. 1998 Feb 15;18(4):1280-96. doi: 10.1523/JNEUROSCI.18-04-01280.1998.

DOI:10.1523/JNEUROSCI.18-04-01280.1998

PMID:9454838

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6792720/

Abstract

The identification of a common cis-acting silencer element, a neuron-restrictive silencer element (NRSE), in multiple neuron-specific genes, together with the finding that zinc finger transcription factor REST/NRSF/XBR could confer NRSE-mediated silencing in non-neuronal cells, suggested that REST/NRSF/XBR is a master negative regulator of neurogenesis. Here we show that, although REST/NRSF/XBR expression decreases during neuronal development, it proceeds in the adult nervous system. In situ hybridization analysis revealed neuronal expression of rat REST/NRSF/XBR mRNA in adult brain, with the highest levels in the neurons of hippocampus, pons/medulla, and midbrain. The glutamate analog kainic acid increased REST/NRSF/XBR mRNA levels in various hippocampal and cortical neurons in vivo, suggesting that REST/NRSF/XBR has a role in neuronal activity-implied processes. Several alternatively spliced REST/NRSF/XBR mRNAs encoding proteins with nine, five, or four zinc finger motifs are transcribed from REST/NRSF/XBR gene. Two of these transcripts are generated by neuron-specific splicing of a 28-bp-long exon. Rat REST/NRSF/XBR protein isoforms differ in their DNA binding specificities; however, all mediate repression in transient expression assays. Our data suggest that REST/NRSF/XBR is a negative regulator rather than a transcriptional silencer of neuronal gene expression and counteracts with positive regulators to modulate target gene expression quantitatively in different cell types, including neurons.

摘要

在多个神经元特异性基因中鉴定出一种常见的顺式作用沉默元件，即神经元限制性沉默元件（NRSE），同时发现锌指转录因子REST/NRSF/XBR可在非神经元细胞中赋予NRSE介导的沉默作用，这表明REST/NRSF/XBR是神经发生的主要负调节因子。在此我们表明，尽管REST/NRSF/XBR的表达在神经元发育过程中会降低，但在成体神经系统中仍会持续存在。原位杂交分析显示，成年大鼠大脑中REST/NRSF/XBR mRNA有神经元表达，在海马体、脑桥/延髓和中脑的神经元中水平最高。谷氨酸类似物 kainic 酸在体内可增加各种海马体和皮质神经元中REST/NRSF/XBR mRNA的水平，这表明REST/NRSF/XBR在神经元活动相关过程中发挥作用。从REST/NRSF/XBR基因转录出几种选择性剪接的REST/NRSF/XBR mRNA，它们编码具有九个、五个或四个锌指基序的蛋白质。其中两种转录本是由一个28bp长的外显子的神经元特异性剪接产生的。大鼠REST/NRSF/XBR蛋白异构体在DNA结合特异性上有所不同；然而，在瞬时表达实验中它们都介导抑制作用。我们的数据表明，REST/NRSF/XBR是神经元基因表达的负调节因子而非转录沉默因子，并且在不同细胞类型（包括神经元）中与正调节因子相互作用以定量调节靶基因表达。

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