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Transcriptomic mapping uncovers Purkinje neuron plasticity driving learning

بواسطة Bonni, Azad , Zhao, Guoyan , Yuede, Carla M. , Zhang, Shuwei , Chen, Xiaoying , Zhang, Xiaoqing , Wang, Samuel S.-H. , Kislin, Mikhail , Dietmann, Sabine , Gabel, Harrison , Broussard, Gerard Joey , Du, Yanhua

في 13/31 / 13/51 / 14/19 / 14/32 / 14/69 / 42/41 / 45/91 / 631/378/2632/1368 / 631/378/340 / 64/60 / Animals / Associative learning / Calcium imaging / Cerebellum / Divergence / Fibroblast growth factor receptor 2 / Gene expression / Gene sequencing / Humanities and Social Sciences / Kinases / Learning / Learning - physiology / Metabolism / Mice / Mice, Knockout / Motor activity / Motor skill learning / multidisciplinary / Network analysis / Neuroimaging / Neurological diseases / Neuronal Plasticity - genetics / Neurons / Neurons - physiology / Nuclei (cytology) / Perturbation / Plastic foam / Plastic properties / Plasticity / Population / Proteins / Purkinje cells / Purkinje Cells - metabolism / Ribonucleic acid / RNA / Science / Science (multidisciplinary) / Sensorimotor system / Subpopulations / Transcriptome - genetics / Transcriptomics

2022

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Transcriptomic mapping uncovers Purkinje neuron plasticity driving learning

2022

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Transcriptomic mapping uncovers Purkinje neuron plasticity driving learning

2022

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Journal Article

Transcriptomic mapping uncovers Purkinje neuron plasticity driving learning

Bonni, Azad,

Zhao, Guoyan,

Yuede, Carla M.,

Zhang, Shuwei,

Chen, Xiaoying,

Zhang, Xiaoqing,

Wang, Samuel S.-H.,

Kislin, Mikhail,

Dietmann, Sabine,

Gabel, Harrison,

Broussard, Gerard Joey,

Du, Yanhua

2022

نظرة عامة

Cellular diversification is critical for specialized functions of the brain including learning and memory 1 . Single-cell RNA sequencing facilitates transcriptomic profiling of distinct major types of neuron 2 – 4 , but the divergence of transcriptomic profiles within a neuronal population and their link to function remain poorly understood. Here we isolate nuclei tagged 5 in specific cell types followed by single-nucleus RNA sequencing to profile Purkinje neurons and map their responses to motor activity and learning. We find that two major subpopulations of Purkinje neurons, identified by expression of the genes Aldoc and Plcb4 , bear distinct transcriptomic features. Plcb4 + , but not Aldoc + , Purkinje neurons exhibit robust plasticity of gene expression in mice subjected to sensorimotor and learning experience. In vivo calcium imaging and optogenetic perturbation reveal that Plcb4 + Purkinje neurons have a crucial role in associative learning. Integrating single-nucleus RNA sequencing datasets with weighted gene co-expression network analysis uncovers a learning gene module that includes components of FGFR2 signalling in Plcb4 + Purkinje neurons. Knockout of Fgfr2 in Plcb4 + Purkinje neurons in mice using CRISPR disrupts motor learning. Our findings define how diversification of Purkinje neurons is linked to their responses in motor learning and provide a foundation for understanding their differential vulnerability to neurological disorders. Subpopulations of Purkinje neurons display distinct transcriptomic responses and functions in associative learning.

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الناشر

Nature Publishing Group UK,Nature Publishing Group

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13/31

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/ 14/19

/ 14/32

/ 14/69

/ 42/41

/ 45/91