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Sox21 通过转录抑制 Hes5 基因促进海马体成体神经发生。

Sox21 promotes hippocampal adult neurogenesis via the transcriptional repression of the Hes5 gene.

机构信息

Department of Physiology, Keio University School of Medicine, Shinjuku-ku, Tokyo 160-8582, Japan.

出版信息

J Neurosci. 2012 Sep 5;32(36):12543-57. doi: 10.1523/JNEUROSCI.5803-11.2012.

DOI:10.1523/JNEUROSCI.5803-11.2012
PMID:22956844
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6621257/
Abstract

Despite the importance of the production of new neurons in the adult hippocampus, the transcription network governing this process remains poorly understood. The High Mobility Group (HMG)-box transcription factor, Sox2, and the cell surface activated transcriptional regulator, Notch, play important roles in CNS stem cells. Here, we demonstrate that another member of the SoxB (Sox1/Sox2/Sox3) transcription factor family, Sox21, is also a critical regulator of adult neurogenesis in mouse hippocampus. Loss of Sox21 impaired transition of progenitor cells from type 2a to type 2b, thereby reducing subsequent production of new neurons in the adult dentate gyrus. Analysis of the Sox21 binding sites in neural stem/progenitor cells indicated that the Notch-responsive gene, Hes5, was a target of Sox21. Sox21 repressed Hes5 gene expression at the transcriptional level. Simultaneous overexpression of Hes5 and Sox21 revealed that Hes5 was a downstream effector of Sox21 at the point where the Notch and Sox pathways intersect to control the number of neurons in the adult hippocampus. Therefore, Sox21 controls hippocampal adult neurogenesis via transcriptional repression of the Hes5 gene.

摘要

尽管成年海马体中新神经元的产生非常重要,但控制这一过程的转录网络仍知之甚少。高迁移率族(HMG)-盒转录因子 Sox2 和细胞表面激活的转录调节因子 Notch 在中枢神经系统干细胞中发挥重要作用。在这里,我们证明 SoxB(Sox1/Sox2/Sox3)转录因子家族的另一个成员 Sox21 也是调节小鼠海马体成年神经发生的关键调控因子。Sox21 的缺失会损害祖细胞从 2a 型向 2b 型的转变,从而减少成年齿状回中新神经元的后续产生。对神经干细胞/祖细胞中 Sox21 结合位点的分析表明,Notch 反应基因 Hes5 是 Sox21 的靶基因。Sox21 在转录水平上抑制 Hes5 基因的表达。同时过表达 Hes5 和 Sox21 表明,Hes5 是 Sox21 在 Notch 和 Sox 通路交汇点控制成年海马体神经元数量的下游效应因子。因此,Sox21 通过抑制 Hes5 基因的转录来控制海马体的成年神经发生。

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