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Differential spatiotemporal development of Purkinje cell populations and cerebellum-dependent sensorimotor behaviors

Gerrit Cornelis Beekhof, Catarina Osório, Joshua J. White, Scott van Zoomeren, Hannah van der Stok, Bilian Xiong, Ingo H. M. S. Nettersheim, Willem A. Mak, Marit Runge, Francesca Romana Fiocchi, Henk‐Jan Boele, Freek E. Hoebeek, Martijn Schonewille

2021eLife61 citationsDOIOpen Access PDF

Abstract

Distinct populations of Purkinje cells (PCs) with unique molecular and connectivity features are at the core of the modular organization of the cerebellum. Previously, we showed that firing activity of PCs differs between ZebrinII-positive and ZebrinII-negative cerebellar modules (Zhou et al., 2014; Wu et al., 2019). Here, we investigate the timing and extent of PC differentiation during development in mice. We found that several features of PCs, including activity levels, dendritic arborization, axonal shape and climbing fiber input, develop differentially between nodular and anterior PC populations. Although all PCs show a particularly rapid development in the second postnatal week, anterior PCs typically have a prolonged physiological and dendritic maturation. In line herewith, younger mice exhibit attenuated anterior-dependent eyeblink conditioning, but faster nodular-dependent compensatory eye movement adaptation. Our results indicate that specific cerebellar regions have unique developmental timelines which match with their related, specific forms of cerebellum-dependent behaviors.

Topics & Concepts

Climbing fiberCerebellumNeurosciencePurkinje cellBiologyEyeblink conditioningParallel fiberMossy fiber (hippocampus)Cerebellar cortexCytoarchitectureAnatomyCentral nervous systemClassical conditioningConditioningDentate gyrusMathematicsStatisticsVestibular and auditory disordersRetinal Development and DisordersNeuroinflammation and Neurodegeneration Mechanisms
Differential spatiotemporal development of Purkinje cell populations and cerebellum-dependent sensorimotor behaviors | Litcius