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转录因子 SOX4 和 SOX11 冗余调节调控小鼠视网膜神经节细胞的发育。

Transcription factors SOX4 and SOX11 function redundantly to regulate the development of mouse retinal ganglion cells.

机构信息

Flaum Eye Institute and Department of Ophthalmology, University of Rochester, Rochester, New York 14642, USA.

出版信息

J Biol Chem. 2013 Jun 21;288(25):18429-38. doi: 10.1074/jbc.M113.478503. Epub 2013 May 6.

DOI:10.1074/jbc.M113.478503
PMID:23649630
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3689985/
Abstract

SOX family proteins belong to the high-mobility-group (HMG) domain-containing transcription factors, and function as key players to regulate embryonic development and cell fate determination. The highly related group C Sox genes Sox4 and Sox11 are widely expressed in the development of mouse retina and share a similar expression pattern with each other in this process. Here, to investigate the roles of Sox4 and Sox11 in the retinal development, Sox4, Sox11, and Sox4/Sox11 conditional knock-out (CKO) mice with deletion of Sox4, Sox11, and Sox4/Sox11 in retinas were generated. Our studies demonstrated that targeted disruption of Sox4 or Sox11 in retinas caused a moderate reduction of generation of RGCs. However, a complete loss of RGCs was observed in Sox4/Sox11-null retinas, suggesting the two genes play similar roles in the development of RGCs. Our further analysis confirms that Sox4 and Sox11 function redundantly to regulate the generation of RGCs at early embryonic stages as well as the survival of RGCs at late embryonic stages. In addition, we demonstrated that loss of Math5 impairs the expression of Sox4 and Sox11 in the ganglion cell layer while deletion of Brn3b has no effect on the expression of Sox4 and Sox11. Taken together, these findings elucidate SoxC genes as essential contributors to maintain the survival of RGCs, and imply their intermediate position between Math5 and Brn3b in the genetic hierarchy of RGC development.

摘要

Sox 家族蛋白属于高迁移率族(HMG)结构域转录因子,作为调节胚胎发育和细胞命运决定的关键因子发挥作用。高度相关的 Sox4 和 Sox11 这两个 C 组 Sox 基因在小鼠视网膜发育中广泛表达,在这一过程中彼此具有相似的表达模式。在这里,为了研究 Sox4 和 Sox11 在视网膜发育中的作用,我们生成了 Sox4、Sox11 和 Sox4/Sox11 条件性敲除(CKO)小鼠,它们的 Sox4、Sox11 和 Sox4/Sox11 在视网膜中缺失。我们的研究表明,视网膜中 Sox4 或 Sox11 的靶向缺失导致 RGC 生成适度减少。然而,在 Sox4/Sox11 缺失的视网膜中观察到 RGC 的完全缺失,表明这两个基因在 RGC 发育中发挥相似的作用。我们进一步的分析证实,Sox4 和 Sox11 在早期胚胎阶段的 RGC 生成和晚期胚胎阶段的 RGC 存活中发挥冗余作用来调节 RGC 的生成。此外,我们证明 Math5 的缺失会损害神经节细胞层中 Sox4 和 Sox11 的表达,而 Brn3b 的缺失对 Sox4 和 Sox11 的表达没有影响。总之,这些发现阐明了 SoxC 基因作为维持 RGC 存活的必需贡献者,并暗示它们在 RGC 发育的遗传层次结构中处于 Math5 和 Brn3b 之间的中间位置。

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