FOXP2的类泛素化修饰通过浦肯野细胞发育调节运动功能和发声交流。

Sumoylation of FOXP2 Regulates Motor Function and Vocal Communication Through Purkinje Cell Development.

作者信息

Usui Noriyoshi, Co Marissa, Harper Matthew, Rieger Michael A, Dougherty Joseph D, Konopka Genevieve

机构信息

Department of Neuroscience, University of Texas Southwestern Medical Center, Dallas, Texas.

Departments of Genetics and Psychiatry, Washington University School of Medicine, St. Louis, Missouri.

出版信息

Biol Psychiatry. 2017 Feb 1;81(3):220-230. doi: 10.1016/j.biopsych.2016.02.008. Epub 2016 Feb 13.

DOI:10.1016/j.biopsych.2016.02.008

PMID:27009683

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4983264/

Abstract

BACKGROUND

Mutations in the gene encoding the transcription factor forkhead box P2 (FOXP2) result in brain developmental abnormalities, including reduced gray matter in both human patients and rodent models and speech and language deficits. However, neither the region-specific function of FOXP2 in the brain, in particular the cerebellum, nor the effects of any posttranslational modifications of FOXP2 in the brain and disorders have been explored.

METHODS

We characterized sumoylation of FOXP2 biochemically and analyzed the region-specific function and sumoylation of FOXP2 in the developing mouse cerebellum. Using in utero electroporation to manipulate the sumoylation state of FOXP2 as well as Foxp2 expression levels in Purkinje cells of the cerebellum in vivo, we reduced Foxp2 expression approximately 40% in the mouse cerebellum. Such a reduction approximates the haploinsufficiency observed in human patients who demonstrate speech and language impairments.

RESULTS

We identified sumoylation of FOXP2 at K674 (K673 in mice) in the cerebellum of neonates. In vitro co-immunoprecipitation and in vivo colocalization experiments suggest that PIAS3 acts as the small ubiquitin-like modifier E3 ligase for FOXP2 sumoylation. This sumoylation modifies transcriptional regulation by FOXP2. We demonstrated that FOXP2 sumoylation is required for regulation of cerebellar motor function and vocal communication, likely through dendritic outgrowth and arborization of Purkinje cells in the mouse cerebellum.

CONCLUSIONS

Sumoylation of FOXP2 in neonatal mouse cerebellum regulates Purkinje cell development and motor functions and vocal communication, demonstrating evidence for sumoylation in regulating mammalian behaviors.

摘要

背景

编码转录因子叉头框蛋白P2（FOXP2）的基因突变会导致大脑发育异常，包括人类患者和啮齿动物模型的灰质减少以及言语和语言缺陷。然而，FOXP2在大脑，特别是小脑中的区域特异性功能，以及FOXP2在大脑中的任何翻译后修饰及其对疾病的影响尚未得到研究。

方法

我们对FOXP2的SUMO化进行了生化特征分析，并分析了FOXP2在发育中的小鼠小脑中的区域特异性功能和SUMO化。通过子宫内电穿孔来操纵FOXP2的SUMO化状态以及体内小鼠小脑中浦肯野细胞的Foxp2表达水平，我们将小鼠小脑中的Foxp2表达降低了约40%。这种降低程度近似于在表现出言语和语言障碍的人类患者中观察到的单倍剂量不足。

结果

我们在新生小鼠的小脑中鉴定出FOXP2在K674（小鼠中为K673）处发生SUMO化。体外共免疫沉淀和体内共定位实验表明，PIAS3作为FOXP2 SUMO化的小泛素样修饰物E3连接酶。这种SUMO化修饰了FOXP2的转录调控。我们证明，FOXP2 SUMO化可能通过小鼠小脑中浦肯野细胞的树突生长和分支，对小脑运动功能和发声交流的调节是必需的。

结论

新生小鼠小脑中FOXP2的SUMO化调节浦肯野细胞发育、运动功能和发声交流，为SUMO化在调节哺乳动物行为中的作用提供了证据。

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