Litcius/Paper detail

Purkinje Cell Activity Determines the Timing of Sensory-Evoked Motor Initiation

Shinichiro Tsutsumi, Oscar Chadney, Tin-Long Yiu, Edgar Bäumler, Lavinia Faraggiana, Maxime Beau, Michael Häusser

2020Cell Reports38 citationsDOIOpen Access PDF

Abstract

Cerebellar neurons can signal sensory and motor events, but their role in active sensorimotor processing remains unclear. We record and manipulate Purkinje cell activity during a task that requires mice to rapidly discriminate between multisensory and unisensory stimuli before motor initiation. Neuropixels recordings show that both sensory stimuli and motor initiation are represented by short-latency simple spikes. Optogenetic manipulation of short-latency simple spikes abolishes or delays motor initiation in a rate-dependent manner, indicating a role in motor initiation and its timing. Two-photon calcium imaging reveals task-related coherence of complex spikes organized into conserved alternating parasagittal stripes. The coherence of sensory-evoked complex spikes increases with learning and correlates with enhanced temporal precision of motor initiation. These results suggest that both simple spikes and complex spikes govern sensory-driven motor initiation: simple spikes modulate its latency, and complex spikes refine its temporal precision, providing specific cellular substrates for cerebellar sensorimotor control.

Topics & Concepts

NeuroscienceOptogeneticsSensory systemLatency (audio)Calcium imagingMotor systemCerebellumMotor controlBiologyComputer scienceChemistryCalciumTelecommunicationsOrganic chemistryVestibular and auditory disordersHearing, Cochlea, Tinnitus, GeneticsNeural dynamics and brain function