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Communication from the cerebellum to the neocortex during sleep spindles

Wei Xu, Felipe De Carvalho, Alexander Kenneth Clarke, Andrew Jackson

2020Progress in Neurobiology44 citationsDOIOpen Access PDF

Abstract

Surprisingly little is known about neural activity in the sleeping cerebellum. Using long-term wireless recording, we characterised dynamic cerebro-thalamo-cerebellar interactions during natural sleep in monkeys. Similar sleep cycles were evident in both M1 and cerebellum as cyclical fluctuations in firing rates as well as a reciprocal pattern of slow waves and sleep spindles. Directed connectivity from motor cortex to the cerebellum suggested a neocortical origin of slow waves. Surprisingly however, spindles were associated with a directional influence from the cerebellum to motor cortex, conducted via the thalamus. Furthermore, the relative phase of spindle-band oscillations in the neocortex and cerebellum varied systematically with their changing amplitudes. We used linear dynamical systems analysis to show that this behaviour could only be explained by a system of two coupled oscillators. These observations appear inconsistent with a single spindle generator within the thalamo-cortical system, and suggest instead a cerebellar contribution to neocortical sleep spindles. Since spindles are implicated in the off-line consolidation of procedural learning, we speculate that this may involve communication via cerebello-thalamo-neocortical pathways in sleep.

Topics & Concepts

CerebellumNeuroscienceNeocortexSleep spindleThalamusMemory consolidationCerebellar cortexBiologyPsychologySlow-wave sleepElectroencephalographyHippocampusSleep and Wakefulness ResearchVestibular and auditory disordersNeural dynamics and brain function
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