环境富集可挽救 TgDyrk1A 中的 DYRK1A 活性和海马体成体神经发生。

Environmental enrichment rescues DYRK1A activity and hippocampal adult neurogenesis in TgDyrk1A.

机构信息

Systems Biology Program, Centre for Genomic Regulation (CRG), Dr. Aiguader 88, E-08003 Barcelona, Spain; Universitat Pompeu Fabra (UPF), Dr. Aiguader 88, E-08003 Barcelona, Spain; Centro de Investigación Biomédica en Red de Enfermedades Raras (CIBERER), Dr. Aiguader 88, E-08003 Barcelona, Spain.

出版信息

Neurobiol Dis. 2013 Dec;60:18-31. doi: 10.1016/j.nbd.2013.08.008. Epub 2013 Aug 20.

DOI:10.1016/j.nbd.2013.08.008

PMID:23969234

Abstract

Hippocampal adult neurogenesis disruptions have been suggested as one of the neuronal plasticity mechanisms underlying learning and memory impairment in Down syndrome (DS). However, it remains unknown whether specific candidate genes are implicated in these phenotypes in the multifactorial context of DS. Here we report that transgenic mice (TgDyrk1A) with overdosage of Dyrk1A, a DS candidate gene, show important alterations in adult neurogenesis including reduced cell proliferation rate, altered cell cycle progression and reduced cell cycle exit leading to premature migration, differentiation and reduced survival of newly born cells. In addition, less proportion of newborn hippocampal TgDyrk1A neurons are activated upon learning, suggesting reduced integration in learning circuits. Some of these alterations were DYRK1A kinase-dependent since we could rescue those using a DYRK1A inhibitor, epigallocatechin-3-gallate. Environmental enrichment also normalized DYRK1A kinase overdosage in the hippocampus, and rescued adult neurogenesis alterations in TgDyrk1A mice. We conclude that Dyrk1A is a good candidate to explain neuronal plasticity deficits in DS and that normalizing the excess of DYRK1A kinase activity either pharmacologically or using environmental stimulation can correct adult neurogenesis defects in DS.

摘要

海马体成体神经发生的破坏被认为是唐氏综合征（DS）学习和记忆障碍的神经元可塑性机制之一。然而，在 DS 的多因素背景下，是否有特定的候选基因参与这些表型仍然未知。在这里，我们报告说，过表达 DS 候选基因 Dyrk1A 的转基因小鼠（TgDyrk1A）在成体神经发生中表现出重要的改变，包括细胞增殖率降低、细胞周期进程改变、细胞周期退出减少，导致新生成的细胞过早迁移、分化和存活率降低。此外，在学习过程中，新生海马体 TgDyrk1A 神经元的激活比例较低，表明其在学习回路中的整合减少。这些改变中的一些是 DYRK1A 激酶依赖性的，因为我们可以使用 DYRK1A 抑制剂表没食子儿茶素没食子酸酯（epigallocatechin-3-gallate）来挽救这些改变。环境丰富化也可以使海马体中的 DYRK1A 激酶过表达正常化，并挽救 TgDyrk1A 小鼠的成体神经发生改变。我们得出结论，Dyrk1A 是解释 DS 中神经元可塑性缺陷的一个很好的候选基因，通过药理学或环境刺激使 DYRK1A 激酶活性的过量正常化可以纠正 DS 中的成体神经发生缺陷。

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环境富集可挽救 TgDyrk1A 中的 DYRK1A 活性和海马体成体神经发生。

Environmental enrichment rescues DYRK1A activity and hippocampal adult neurogenesis in TgDyrk1A.

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