锥体神经元中 Pik3c3 的缺失导致突触丧失、广泛的神经胶质增生和进行性神经退行性变。
Pik3c3 deletion in pyramidal neurons results in loss of synapses, extensive gliosis and progressive neurodegeneration.
机构信息
Department of Cell Biology, Duke University Medical Center, Box 3709, Durham, NC 27710, USA.
出版信息
Neuroscience. 2011 Jan 13;172:427-42. doi: 10.1016/j.neuroscience.2010.10.035. Epub 2010 Oct 16.
Abstract
The lipid kinase PIK3C3 (also known as VPS34) regulates multiple aspects of endo-membrane trafficking processes. PIK3C3 is widely expressed by neurons in the CNS, and its catalytic product PI3P is enriched in dendritic spines. Here we generated a line of conditional mutant mouse in which Pik3c3 is specifically deleted in hippocampal and in small subsets of cortical pyramidal neurons using the CaMKII-Cre transgene. We found that Pik3c3-deficiency initially causes loss of dendritic spines accompanied with reactive gliosis, which is followed by progressive neuronal degeneration over a period of several months. Layers III and IV cortical neurons are more susceptible to Pik3c3-deletion than hippocampal neurons. Furthermore, in aged conditional Pik3c3 mutant animals, there are extensive gliosis and severe secondary loss of wild type neurons. Our analyses show that Pik3c3 is essential for CNS neuronal homeostasis and Pik3c3flox/flox; CaMKII-Cre mouse is a useful model for studying pathological changes in progressive forebrain neurodegeneration.
摘要
脂质激酶 PIK3C3(也称为 VPS34)调节多种内体膜运输过程。PIK3C3 在中枢神经系统的神经元中广泛表达,其催化产物 PI3P 在树突棘中富集。在这里,我们使用 CaMKII-Cre 转基因在海马体中和皮质锥体细胞的小亚群中特异性缺失 Pik3c3,生成了一条条件性突变小鼠系。我们发现,Pik3c3 缺失最初导致树突棘丢失,伴有反应性神经胶质增生,随后在几个月的时间内逐渐发生神经元退行性变。皮质层 III 和 IV 神经元比海马体神经元更容易受到 Pik3c3 缺失的影响。此外,在老年条件性 Pik3c3 突变动物中,存在广泛的神经胶质增生和严重的野生型神经元继发性丢失。我们的分析表明,Pik3c3 对于中枢神经系统神经元的内稳态是必不可少的,Pik3c3flox/flox; CaMKII-Cre 小鼠是研究进行性前脑神经退行性变中病理变化的有用模型。
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