Glutamatergic Cerebellar Neurons Differentially Contribute to the Acquisition of Motor and Social Behaviors

Overview

Journal Nat Commun

Specialty Biology

Date 2023 May 15

PMID 37188723

Authors

Meike E van der Heijden

Alejandro G Rey Hipolito

Linda H Kim

Dominic J Kizek

Ross M Perez

Tao Lin

Roy V Sillitoe

Affiliations

Soon will be listed here.

Abstract

Insults to the developing cerebellum can cause motor, language, and social deficits. Here, we investigate whether developmental insults to different cerebellar neurons constrain the ability to acquire cerebellar-dependent behaviors. We perturb cerebellar cortical or nuclei neuron function by eliminating glutamatergic neurotransmission during development, and then we measure motor and social behaviors in early postnatal and adult mice. Altering cortical and nuclei neurons impacts postnatal motor control and social vocalizations. Normalizing neurotransmission in cortical neurons but not nuclei neurons restores social behaviors while the motor deficits remain impaired in adults. In contrast, manipulating only a subset of nuclei neurons leaves social behaviors intact but leads to early motor deficits that are restored by adulthood. Our data uncover that glutamatergic neurotransmission from cerebellar cortical and nuclei neurons differentially control the acquisition of motor and social behaviors, and that the brain can compensate for some but not all perturbations to the developing cerebellum.

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