类有机物
刺激
神经科学
神经管
大脑发育
人脑
Wnt信号通路
脑刺激
生物
胚胎干细胞
诱导多能干细胞
神经干细胞
胎儿
干细胞
细胞生物学
胚胎
信号转导
怀孕
遗传学
基因
作者
Lei Xu,Yufan Zhang,Xingyi Chen,Yuan Hong,Xu Zhang,Hao Hu,Xiao Han,Xiao Ping Zou,Min Xu,Wanying Zhu,Yan Liu
摘要
ABSTRACT The developing human foetal brain is sensitive to thermal stimulation during pregnancy. However, the mechanisms by which heat exposure affects human foetal brain development remain unclear, largely due to the lack of appropriate research models for studying thermal stimulation. To address this, we have developed a periodic heating model based on brain organoids derived from human pluripotent stem cells. The model recapitulated neurodevelopmental disruptions under prenatal heat exposure at the early stages, providing a paradigm for studying the altered neurodevelopment under environmental stimulation. Our study found that periodic heat exposure led to decreased size and impaired neural tube development in the brain organoids. Bulk RNA‐seq analysis revealed that the abnormal WNT signalling pathway and the reduction of G2/M progenitor cells might be involved in heat stimulation. Further investigation revealed increased neural differentiation and decreased proliferation under heat stimulation, indicating that periodic heat exposure might lead to abnormal brain development by altering key developmental processes. Hence, our model of periodically heating brain organoids provides a platform for modelling the effects of maternal fever on foetal brain development and could be extended to applications in neurodevelopmental disorders intervention.
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