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Role of the trace amine associated receptor 5 (TAAR5) in the sensorimotor functions

D. S. Kalinina, Maria Ptukha, А. В. Горяинова, Natalia Merkulyeva, Alena A. Kozlova, Ramilya Z. Murtazina, Taisiia S. Shemiakova, Savelii R. Kuvarzin, Anastasia N. Vaganova, Anna B. Volnova, Raul R. Gainetdinov, Pavel Musienko

2021Scientific Reports25 citationsDOIOpen Access PDF

Abstract

Classical monoamines are well-known modulators of sensorimotor neural networks. However, the role of trace amines and their receptors in sensorimotor function remains unexplored. Using trace amine-associated receptor 5 knockout (TAAR5-KO) mice, that express beta-galactosidase mapping its localization, we observed TAAR5 expression in the Purkinje cells of the cerebellum and the medial vestibular nucleus, suggesting that TAAR5 might be involved in the vestibular and motor control. Accordingly, in various behavioral tests, TAAR5-KO mice demonstrated lower endurance, but better coordination and balance compared to wild-type controls. Furthermore, we found specific changes in striatal local field potentials and motor cortex electrocorticogram, such as a decrease in delta and an increase in theta oscillations of power spectra, respectively. The obtained data indicate that TAAR5 plays a considerable role in regulation postural stability, muscle force, balance, and motor coordination during active movements, likely via modulation of monoaminergic systems at different levels of sensorimotor control involving critical brain areas such as the brainstem, cerebellum, and forebrain.

Topics & Concepts

MonoaminergicNeuroscienceVestibular systemForebrainCerebellumMotor coordinationBrainstemReceptorMotor controlBiologySomatosensory systemChemistryPsychologyCentral nervous systemBiochemistrySerotoninOlfactory and Sensory Function StudiesNeurobiology and Insect Physiology ResearchNeural dynamics and brain function