多巴胺能
诱导多能干细胞
纹状体
神经科学
生物
细胞疗法
祖细胞
多巴胺
突变体
移植
灵长类动物
细胞培养
非人灵长类
疾病
中脑
细胞
细胞生物学
干细胞
癌症研究
多巴胺能途径
电生理学
突变
细胞分化
电池类型
生物信息学
帕金森病
遗传增强
祖细胞
药理学
作者
Q.W Yan,Chongchong Xu,Jiangmei Gao,Pu Wang,Qingling Wu,Ying Jin,Binyan Lu,Mu Li,Mingting Shao,Bihai Li,Zhenghui Su,Yijng Zhang,Jian‐Huan Chen,Haojie An,Mengyao Huang,Xiaoji Zhuang,Yuhui Shen,Fenglin Wang,N W Xu,Yiyan Liu
摘要
ABSTRACT Human induced pluripotent stem cell (iPSC)‐derived dopaminergic progenitors offer a promising strategy for cell replacement in Parkinson's disease (PD), yet their long‐term efficacy and safety in primates remain underexplored. Here, we generated isogenic iPSC lines from a PD patient carrying compound LRRK2 mutations (R50H and M2397T) and used CRISPR/Cas9 and prime editing to correct these variants. Both mutant and gene‐corrected lines were differentiated into midbrain dopaminergic progenitors (DA‐NPCs), characterized in vitro, and transplanted bilaterally into the striatum of MPTP‐lesioned cynomolgus monkeys. Over 18 months, grafted cells survived, expressed TH and GIRK2, and exhibited mature electrophysiological properties. [ 1 8 F] DOPA PET imaging revealed restored dopamine synthesis in both grafting groups, with no statistically significant differences observed between mutant and gene‐corrected groups. Behavioral assessments showed sustained motor improvements and enhanced exploratory behavior. No tumor formation or adverse astrocytic response was observed, and systemic safety markers remained normal. These findings demonstrate that both mutant and corrected DA‐NPCs integrate and function in the primate brain. Our results support the feasibility of personalized regenerative therapies for genetic PD.
科研通智能强力驱动
Strongly Powered by AbleSci AI