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Cerebellar granule cell signaling is indispensable for normal motor performance

Joon-Hyuk Lee, Marium Nadeem Khan, Amanda P. Stark, Soobin Seo, Aliya Norton, Zhiyi Yao, Christopher H. Chen, Wade G. Regehr

2023Cell Reports17 citationsDOIOpen Access PDF

Abstract

Within the cerebellar cortex, mossy fibers (MFs) excite granule cells (GCs) that excite Purkinje cells (PCs), which provide outputs to the deep cerebellar nuclei (DCNs). It is well established that PC disruption produces motor deficits such as ataxia. This could arise from either decreases in ongoing PC-DCN inhibition, increases in the variability of PC firing, or disruption of the flow of MF-evoked signals. Remarkably, it is not known whether GCs are essential for normal motor function. Here we address this issue by selectively eliminating calcium channels that mediate transmission (Ca V 2.1, Ca V 2.2, and Ca V 2.3) in a combinatorial manner. We observe profound motor deficits but only when all Ca V 2 channels are eliminated. In these mice, the baseline rate and variability of PC firing are unaltered, and locomotion-dependent increases in PC firing are eliminated. We conclude that GCs are indispensable for normal motor performance and that disruption of MF-induced signals impairs motor performance.

Topics & Concepts

NeuroscienceCerebellumGranule cellCell biologyCellGranule (geology)Cell signalingSignal transductionChemistryBiologyBiochemistryCentral nervous systemPaleontologyDentate gyrusVestibular and auditory disordersNeuroscience of respiration and sleepNeuroscience and Neuropharmacology Research
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