SUMOylation 修饰 FOXP1 通过 CtBP1 调控转录抑制以驱动树突形态发生。

SUMOylation of FOXP1 regulates transcriptional repression via CtBP1 to drive dendritic morphogenesis.

机构信息

School of Biochemistry, Centre for Synaptic Plasticity, Medical Sciences Building, University of Bristol, University Walk, Bristol, BS8 1TD, UK.

出版信息

Sci Rep. 2017 Apr 13;7(1):877. doi: 10.1038/s41598-017-00707-6.

DOI:10.1038/s41598-017-00707-6

PMID:28408745

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5429823/

Abstract

Forkhead Box P (FOXP) transcriptional repressors play a major role in brain development and their dysfunction leads to human cognitive disorders. However, little is known about how the activity of these proteins is regulated. Here, we show that FOXP1 SUMOylation at lysine 670 is required for recruiting the co-repressor CtBP1 and transcriptional repression. FOXP1 SUMOylation is tightly controlled by neuronal activity, in which synapse to nucleus signalling, mediated via NMDAR and L-type calcium channels, results in rapid FOXP1 deSUMOylation. Knockdown of FOXP1 in cultured cortical neurons stunts dendritic outgrowth and this phenotype cannot be rescued by replacement with a non-SUMOylatable FOXP1-K670R mutant, indicating that SUMOylation of FOXP1 is essential for regulation of proper neuronal morphogenesis. These results suggest that activity-dependent SUMOylation of FOXP1 may be an important mediator of early cortical development and neuronal network formation in the brain.

摘要

叉头框 P（FOXP）转录阻遏物在大脑发育中起主要作用，其功能障碍导致人类认知障碍。然而，对于这些蛋白质的活性是如何调节的，我们知之甚少。在这里，我们表明，FOXP1 在赖氨酸 670 的 SUMO 化对于招募共阻遏因子 CtBP1 和转录抑制是必需的。FOXP1 的 SUMO 化受到神经元活性的严格控制，其中通过 NMDAR 和 L 型钙通道介导的突触到核信号导致 FOXP1 的快速去 SUMO 化。在培养的皮质神经元中敲低 FOXP1 会阻碍树突生长，而这种表型不能通过替换非 SUMOylatable FOXP1-K670R 突变体来挽救，表明 FOXP1 的 SUMO 化对于调节适当的神经元形态发生是必需的。这些结果表明，FOXP1 的活性依赖性 SUMO 化可能是大脑中早期皮质发育和神经元网络形成的重要介质。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7cf2/5429823/2edc35f0ee02/41598_2017_707_Fig1_HTML.jpg

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SUMOylation 修饰 FOXP1 通过 CtBP1 调控转录抑制以驱动树突形态发生。

SUMOylation of FOXP1 regulates transcriptional repression via CtBP1 to drive dendritic morphogenesis.

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