Journal
JOURNAL OF NEUROSCIENCE
Volume 37, Issue 46, Pages 11220-11232Publisher
SOC NEUROSCIENCE
DOI: 10.1523/JNEUROSCI.1289-17.2017
Keywords
basal ganglia; beta oscillations; subthalamo-pallidal network
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Funding
- BrainLinks-BrainTools Cluster of Excellence - German Research Foundation (DFG) [EXC 1086]
- University of Sheffield
- state of Baden-Wurttemberg through bwHPC
- DFG Grant [INST 39/963-1 FUGG]
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Brief epochs of beta oscillations have been implicated in sensorimotor control in the basal ganglia of task-performing healthy animals. However, which neural processes underlie their generation and how they are affected by sensorimotor processing remains unclear. To determine the mechanisms underlying transient beta oscillations in the LFP, we combined computational modeling of the subthalamo-pallidal network for the generation of beta oscillations with realistic stimulation patterns derived from single-unit data recorded from different basal ganglia subregions in rats performing a cued choice task. In the recordings, we found distinct firing patterns in the striatum, globus pallidus, and subthalamic nucleus related to sensory and motor events during the behavioral task. Using these firing patterns to generate realistic inputs to our network model led to transient beta oscillations with the same time course as the rat LFP data. In addition, our model can account for further nonintuitive aspects of beta modulation, including beta phase resets after sensory cues and correlations with reaction time. Overall, our model can explain how the combination of temporally regulated sensory responses of the subthalamic nucleus, ramping activity of the subthalamic nucleus, and movement-related activity of the globus pallidus leads to transient beta oscillations during behavior.
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