Ahn Kyoung-Jin, Jeong Hey Kyeong, Choi Han-Saem, Ryoo Soo-Ryoon, Kim Yeon Ju, Goo Jun-Seo, Choi Se-Young, Han Jung-Soo, Ha Ilho, Song Woo-Joo
Graduate Program in Neuroscience and Institute for Brain Science and Technology (IBST), Inje University, Daejeon 305-804, Republic of Korea.
Neurobiol Dis. 2006 Jun;22(3):463-72. doi: 10.1016/j.nbd.2005.12.006. Epub 2006 Feb 7.
Among the various phenotypes seen in Down syndrome (DS), mental retardation is the most common and most debilitating condition suffered by individuals with DS. The DYRK1A gene on human chromosome 21q22.2 encodes a subfamily of protein kinases that displays dual substrate specificities and is known to play a critical role in neurodevelopment. To study DS mental retardation, we have generated transgenic mice that contain only one copy of the complete human DYRK1A gene in a bacterial artificial chromosome. The transgenic mice showed significant impairment in hippocampal-dependent memory tasks in a Morris water maze. Interestingly, we observed shifts in both long-term potentiation and long-term depression, which suggests a role for DYRK1A in bidirectional synaptic plasticity. These mice represent the most clinically relevant DYRK1A mouse model to date and provide us a valuable tool for the in vivo study of mechanisms that underlie the learning and memory deficit in DS.
在唐氏综合征(DS)所呈现的各种表型中,智力迟钝是DS患者最常见且最具致残性的病症。人类21号染色体q22.2上的DYRK1A基因编码一类蛋白激酶亚家族,该亚家族具有双重底物特异性,并且已知在神经发育中起关键作用。为了研究DS智力迟钝,我们构建了转基因小鼠,其在细菌人工染色体中仅含有完整人类DYRK1A基因的一个拷贝。转基因小鼠在莫里斯水迷宫中依赖海马体的记忆任务中表现出显著损伤。有趣的是,我们观察到长时程增强和长时程抑制都发生了变化,这表明DYRK1A在双向突触可塑性中发挥作用。这些小鼠代表了迄今为止最具临床相关性的DYRK1A小鼠模型,并为我们提供了一个宝贵的工具,用于体内研究DS学习和记忆缺陷背后的机制。
