张力素
PTEN公司
蛋白激酶B
神经科学
条件基因敲除
PI3K/AKT/mTOR通路
生物
兴奋性突触后电位
基因剔除小鼠
突触
癫痫
磷酸酶
信号转导
调节器
单倍率不足
AKT1型
癌症研究
AKT2型
AKT3
激酶
表型
运动前神经元活动
TSC1
雷帕霉素的作用靶点
细胞生物学
G蛋白信号转导调节因子
突触可塑性
兴奋性突触
进行性肌阵挛性癫痫
作者
Mackenzi L. Prina,Andrew R. Goyette,Asan F. Abdulkareem,Kamran Tariq,Nathan Burgess,Jianmin Su,W. Wang,Meijie Li,Lucky L Drucker,H. Nephi Seo,Nicole M. Desmet,Linda Overstreet-Wadiche,Bridget Shafit-Zagardo,Matthew C. Weston,Bryan W. Luikart
出处
期刊:Brain
[Oxford University Press]
日期:2026-03-07
标识
DOI:10.1093/brain/awag098
摘要
Phosphatase and tensin homolog on chromosome 10 (PTEN) is a key negative regulator of the AKT/mTOR signaling pathway. Mutations in PTEN are highly implicated in Autism Spectrum Disorder (ASD), epilepsy, congenital hydrocephaly, and macrocephaly. While the conditional genetic knockout of Pten in murine neurons results in hypertrophy, increased migration, excitatory synaptogenesis, hyperexcitability, and epileptiform activity, the specific downstream signalling mediators of these pathologies remain to be fully elucidated. Using retroviral-mediated genetic manipulation of individual neurons within the Cre-lox system, we have analyzed pathway outputs in response to the manipulation of various genes using immunohistochemistry, confocal microscopy, and extensive morphological analyses, alongside whole-cell patch-clamp electrophysiology and 120-hour video-EEG monitoring for seizure assessment. Here, we demonstrate that signaling through AKT is necessary for the development of neuronal overgrowth, increased excitatory synapse formation, excessive migration, and hyperexcitability fueled by the loss of PTEN function. Notably, the concurrent deletion of Akt1 and Akt3 isoforms was sufficient to effectively rescue hypertrophic neuronal morphology and physiology. These findings establish AKT as the essential mediator through which PTEN deficiency manifests, providing a transformative therapeutic target to correct the morphological and functional defects central to PTEN-related neurodevelopmental disorders.
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