Multidimensional encoding of movement and contextual variables by rat globus pallidus neurons during a novel environment exposure task

The basal ganglia (BG) play a critical role in a variety of functions that are essential for animal survival. Information from different cortical areas propagates through the BG in anatomically segregated circuits along the parallel direct and indirect pathways. We examined how the globus pallidus (...

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Bibliographic Details
Published in:iScience 2022-09, Vol.25 (9), p.105024-105024, Article 105024
Main Authors: Peer, Noam D., Yamin, Hagar G., Cohen, Dana
Format: Article
Language:English
Subjects:
Behavioral neuroscience
Cellular neuroscience
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Summary:The basal ganglia (BG) play a critical role in a variety of functions that are essential for animal survival. Information from different cortical areas propagates through the BG in anatomically segregated circuits along the parallel direct and indirect pathways. We examined how the globus pallidus (GP), a nucleus within the indirect pathway, encodes input from the motor and cognitive domains. We chronically recorded and analyzed neuronal activity in the GP of male rats engaged in a novel environment exposure task. GP neurons displayed multidimensional responses to movement and contextual information. A model predicting single unit activity required many task-related behavioral variables, thus confirming the multidimensionality of GP neurons. In addition, populations of GP neurons, but not single units, reliably encoded the animals’ locomotion speed and the environmental novelty. We posit that the GP independently processes information from different domains, effectively compresses it and collectively conveys it to successive nuclei. [Display omitted] •Single GP neurons encode independently many behavioral and contextual variables•Many behavioral variables contribute to the prediction of single neuron firing rate•Single neurons fail to approximate the rat’s locomotion and the environment novelty•Populations of GP neurons encode the rats’ locomotion and the environment novelty Behavioral neuroscience; Cellular neuroscience
ISSN:2589-0042
2589-0042
DOI:10.1016/j.isci.2022.105024