Spatial Transcriptomics Reveal Developmental Dynamics of the Human Cerebral Cortex and Striatum

Yunjia Zhang; Yunjia Zhang; Youning Lin; Xunan Shen; Xue Xiao; Cai Song; Xiaobo Shi; Tao Zhou; Yanxin Li; Zihan Wu; Zhenkun Zhuang; Chunqiong Li; Meng Li; Feng Wen; Jianlin Liu; Qiangqiang Zhang; LI Zhao-lu; Songbo Zhang; Lei Cao; Susu Qu; Yaqi Li; Jianhua Yao; Fubaoqian Huang; Xin Liu; Ziqing Deng; Longqi Liu; Xun Xu; Jianwei Jiao; Li Zhang; Shiping Liu; Yaoyao Zhang; Yaoyao Zhang

doi:10.1101/2025.08.14.670213

Spatial Transcriptomics Reveal Developmental Dynamics of the Human Cerebral Cortex and Striatum

Yunjia Zhang(Sichuan University), Yunjia Zhang(BGI Group (China)), Youning Lin(BGI Group (China)), Xunan Shen(Sichuan University), Xue Xiao(Sichuan University), Cai Song(BGI Group (China)), Xiaobo Shi(BGI Group (China)), Tao Zhou(Chinese Academy of Sciences), Yanxin Li(Chinese Academy of Sciences), Zihan Wu(BGI Group (China)), Zhenkun Zhuang(BGI Group (China)), Chunqiong Li(Beijing Graphene Institute), Meng Li(Beijing Graphene Institute), Feng Wen(Beijing Graphene Institute), Jianlin Liu(Beijing Graphene Institute), Qiangqiang Zhang(King Center), LI Zhao-lu(King Center), Songbo Zhang(King Center), Lei Cao(Beijing Graphene Institute), Susu Qu(Chinese Academy of Medical Sciences & Peking Union Medical College), Yaqi Li(Chinese Academy of Sciences), Jianhua Yao(Tencent (China)), Fubaoqian Huang(Beijing Graphene Institute), Xin Liu(Beijing Graphene Institute), Ziqing Deng(Beijing Graphene Institute), Longqi Liu(BGI Group (China)), Xun Xu(BGI Group (China)), Jianwei Jiao(Chinese Academy of Sciences), Li Zhang(Chinese Academy of Medical Sciences & Peking Union Medical College), Shiping Liu(Sichuan University), Yaoyao Zhang(Sichuan University), Yaoyao Zhang(Sichuan University)

bioRxiv (Cold Spring Harbor Laboratory)

August 15, 2025

10.1101/2025.08.14.670213

Cited by 0Open Access

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Abstract

Summary The human fetal brain undergoes morphological changes that contribute to the development of regional functionalities. However, the features of structural development, the underlying molecular and cellular signatures in the fetal brain remain unclear. With spatial transcriptomics and snRNA-seq, we identified 25 forebrain regions and characterized the dynamic changes in the cortex and striatum during the late first and early second trimesters. In particular, we discovered that temporal lobe enriched NPY-expressing L2/3 EX neuron potentially interacted with L4 EX neurons during cortical expansion and arealization. Additionally, the gyrus and sulcus were developmental asynchronous, in which HOPX and SPARC genes were potentially involved. Further investigation on the striatum showed specific genes and cell types that enriched in patch and matrix compartments, and SST -positive interneurons potentially involved in the development of these structures. Together, our results give insights into the understanding of early fetal brain development.

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