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Striatal cholinergic interneuron membrane voltage tracks locomotor rhythms in mice

Sanaya N. Shroff, Eric Lowet, Sudiksha Sridhar, Howard J. Gritton, Mohammed Abumuaileq, Hua-an Tseng, Cyrus Cheung, Samuel L. Zhou, Krishnakanth Kondabolu, Xue Han

2023Nature Communications24 citationsDOIOpen Access PDF

Abstract

Rhythmic neural network activity has been broadly linked to behavior. However, it is unclear how membrane potentials of individual neurons track behavioral rhythms, even though many neurons exhibit pace-making properties in isolated brain circuits. To examine whether single-cell voltage rhythmicity is coupled to behavioral rhythms, we focused on delta-frequencies (1-4 Hz) that are known to occur at both the neural network and behavioral levels. We performed membrane voltage imaging of individual striatal neurons simultaneously with network-level local field potential recordings in mice during voluntary movement. We report sustained delta oscillations in the membrane potentials of many striatal neurons, particularly cholinergic interneurons, which organize spikes and network oscillations at beta-frequencies (20-40 Hz) associated with locomotion. Furthermore, the delta-frequency patterned cellular dynamics are coupled to animals' stepping cycles. Thus, delta-rhythmic cellular dynamics in cholinergic interneurons, known for their autonomous pace-making capabilities, play an important role in regulating network rhythmicity and movement patterning.

Topics & Concepts

NeuroscienceInterneuronRhythmLocal field potentialCholinergicBiologyBiological neural networkNerve netElectrophysiologyPhysicsInhibitory postsynaptic potentialAcousticsNeural dynamics and brain functionNeuroscience and Neural EngineeringPhotoreceptor and optogenetics research