旁观者效应
转导(生物物理学)
体内
表型
腺相关病毒
海马结构
医学
基因
神经科学
生物
智力残疾
计算生物学
神经发育障碍
基因组编辑
遗传增强
认知
生物信息学
模式生物
心理学
自闭症
转化研究
遗传学
体细胞
神经可塑性
作者
Kan Yang,Wei-Ke Li,Yi-Xiao Geng,Shu-Qian Zhang,Shihao Wu,Yan-Bo Cheng,Yì Wáng,Zhan-Kui Xu,Wen-Xin Wang,Tan-Ying Zhang,Pei-Ye Wang,Yiting Yuan,Juan Fan,Jun Wu,Ruo-Chuan Xu,Yue-Fang ZHANG,Gong-Jia Tao,Zheng-Hui Li,Chen-Xi Lin,Tian-Shu Li
出处
期刊:Nature
[Nature Portfolio]
日期:2026-02-18
卷期号:651 (8106): 785-795
被引量:3
标识
DOI:10.1038/s41586-026-10113-6
摘要
Neurodevelopmental disorders that arise from de novo mutations in chromatin-remodelling genes lack targeted treatments. Snijders Blok–Campeau syndrome (SNIBCPS)1, which is caused by pathogenic variants in CHD3, manifests with intellectual disability, autistic-like behaviours and motor deficits2. Whether somatic gene correction can reverse such phenotypes in vivo remains unknown. Here we show that modelling the recurrent CHD3 variant p.R1025W in a humanized mouse model (Chd3hR1025W/+) recapitulates key features of SNIBCPS, including reduced CHD3 protein levels and abnormalities in social communication, cognition and motor coordination. We engineered a TadA-embedded adenine base editor (TeABE) and delivered it brain-wide using a dual adeno-associated virus (AAV) system and achieved efficient on-target A•T-to-G•C correction across multiple cortical and hippocampal regions with minimal bystander activity. This intervention restored CHD3 levels and ameliorated behavioural abnormalities in vivo. Furthermore, intrathecal dual AAV delivery in nonhuman primates resulted in widespread neuronal transduction and efficient TeABE reconstitution, a result that supports its translational feasibility. These findings establish in vivo base editing as a viable therapeutic approach for CHD3-related neurodevelopmental disease. More broadly, they demonstrate that precise single-base correction in the postnatal brain can restore protein dosage and function, thereby offering a framework for the treatment of monogenic neurodevelopmental disorders. In vivo base editing of a causative mutation that leads to the neurodevelopmental disorder Snijders Blok–Campeau syndrome restores protein dosage and ameliorates molecular and behavioural deficits in a humanized mouse model of the condition.
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