Taniguchi Taizo, Doe Nobutaka, Matsuyama Shogo, Kitamura Yoshihisa, Mori Hiroshi, Saito Naoaki, Tanaka Chikako
Laboratory of Molecular Pharmacology, Biosignal Research Center, Kobe University, Nada-ku, Japan.
FEBS Lett. 2005 Oct 24;579(25):5704-12. doi: 10.1016/j.febslet.2005.09.047. Epub 2005 Oct 5.
Mutations in the tau gene, which is located on chromosome 17, were found causative for autosomal dominantly inherited frontotemporal dementia and parkinsonism linked to chromosome 17 (FTDP-17). To determine if cognitive deficits could be caused by tau mutations, two transgenic mouse lines were generated expressing a four-repeat isoform of human tau or its mutant, containing one of the FTDP-17 mutations (WILD mice and N279K mice). In open field test, N279K mice showed hyperactivity in locomotion and rearing. In prepulse inhibition test, N279K mice but not Wild mice showed significant deficits. Both transgenic mice, especially N279K mice, showed impairment in acquisition of spatial learning in Morris water maze. Although both N279K mice and Wild mice acquired passive avoidance as well as non-transgenic mice, N279K mice but not Wild mice showed severe deficits in acquisition of active avoidance. Histological analysis of the present mutant mice did not show any signs of neurofibrillary tangle formations in the brain, and cognitive dysfunction seemed to precede such neuropathological changes or occur independently from them. The behavioral phenotype of N279K mice mimics features of human FTDP-17 and provides a basic model for elucidating mechanisms underlying cognitive deficits in not only FTDP-17, but also diverse tauopathies.
位于17号染色体上的tau基因突变被发现是常染色体显性遗传的额颞叶痴呆和与17号染色体相关的帕金森症(FTDP - 17)的病因。为了确定认知缺陷是否由tau基因突变引起,构建了两个转基因小鼠品系,分别表达人tau蛋白的四重复异构体或其突变体,其中包含一种FTDP - 17突变(野生型小鼠和N279K小鼠)。在旷场试验中,N279K小鼠在运动和竖毛行为上表现出多动。在预脉冲抑制试验中,N279K小鼠而非野生型小鼠表现出明显缺陷。两种转基因小鼠,尤其是N279K小鼠,在莫里斯水迷宫空间学习的获取过程中表现出损伤。尽管N279K小鼠和野生型小鼠在被动回避学习方面与非转基因小鼠一样,但N279K小鼠在主动回避学习的获取过程中表现出严重缺陷。对当前突变小鼠的组织学分析未显示大脑中有任何神经原纤维缠结形成的迹象,并且认知功能障碍似乎先于这种神经病理学变化出现或独立于其发生。N279K小鼠的行为表型模拟了人类FTDP - 17的特征,并为阐明不仅是FTDP - 17,还有各种tau蛋白病中认知缺陷的潜在机制提供了一个基础模型。
