A Role for the Cerebellum in Motor-triggered Alleviation of Anxiety

Overview

Journal Neuron

Publisher Cell Press

Specialty Neurology

Date 2024 Feb 1

PMID 38301648

Authors

Xiao-Yang Zhang

Wen-Xia Wu

Li-Ping Shen

Miao-Jin Ji

Peng-Fei Zhao

Lei Yu

Jun Yin

Shu-Tao Xie

Yun-Yong Xie

Yang-Xun Zhang

Hong-Zhao Li

Qi-Peng Zhang

Chao Yan

Fei Wang

Chris I De Zeeuw

Jian-Jun Wang

Jing-Ning Zhu

Affiliations

Soon will be listed here.

Abstract

Physical exercise is known to reduce anxiety, but the underlying brain mechanisms remain unclear. Here, we explore a hypothalamo-cerebello-amygdalar circuit that may mediate motor-dependent alleviation of anxiety. This three-neuron loop, in which the cerebellar dentate nucleus takes center stage, bridges the motor system with the emotional system. Subjecting animals to a constant rotarod engages glutamatergic cerebellar dentate neurons that drive PKCδ amygdalar neurons to elicit an anxiolytic effect. Moreover, challenging animals on an accelerated rather than a constant rotarod engages hypothalamic neurons that provide a superimposed anxiolytic effect via an orexinergic projection to the dentate neurons that activate the amygdala. Our findings reveal a cerebello-limbic pathway that may contribute to motor-triggered alleviation of anxiety and that may be optimally exploited during challenging physical exercise.

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