Press Release

Heterogeneity of intrinsic plasticity in cerebellar Purkinje cells linked with cortical molecular zones

Published: February 2, 2022

Highlights

•Zebrin-negative Purkinje cells are more excitable than zebrin-positive ones

•Zebrin-negative Purkinje cells also have higher plasticity of intrinsic excitability

•The difference is mediated by different modulation of SK channel activities

•Purkinje cell physiology differentially tunes to the cerebellar compartmentalization

Summary

In the cerebellar cortex, heterogeneous populations of Purkinje cells (PCs), classified into zebrin (aldolase C)-positive (Z+) and -negative (Z-) types, are arranged into separate longitudinal zones. They have different topographic neuronal connections and show different patterns of activity in behavior tasks. However, whether the zebrin type of PCs directly links with the physiological properties of the PC has not been well clarified. Therefore, we applied in vitro whole-cell patch-clamp recording in Z+ and Z- PCs in vermal and hemispheric neighboring zebrin zones in zebrin-visualized mice. Intrinsic excitability is significantly higher in Z- PCs than in Z+ PCs. Furthermore, intrinsic plasticity and synaptic long-term potentiation are enhanced more in Z- PCs than in Z+ PCs. The difference was mediated by different modulation of SK channel activities between Z+ and Z- PCs. The results indicate that cellular physiology differentially tunes to the functional compartmentalization of heterogeneous PCs.
 

Journal Article

JOURNALiScience

TITLE:Heterogeneity of intrinsic plasticity in cerebellar Purkinje cells linked with cortical molecular zones

DOIhttps://doi.org/10.1016/j.isci.2021.103705

Correspondence to

Izumi Sugihara, Professor

Department of Systems Neurophysiology,
Graduate School of Medical and Dental Sciences,
Tokyo Medical and Dental University(TMDU)
E-mail:isugihara.phy1(at)tmd.ac.jp


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