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Excitatory nucleo-olivary pathway shapes cerebellar outputs for motor control

Xiaolu Wang, Zhiqiang Liu, Milen Angelov, Zhao Feng, Xiangning Li, Anan Li, Yan Yang, Hui Gong, Zhenyu Gao

2023Nature Neuroscience31 citationsDOIOpen Access PDF

Abstract

The brain generates predictive motor commands to control the spatiotemporal precision of high-velocity movements. Yet, how the brain organizes automated internal feedback to coordinate the kinematics of such fast movements is unclear. Here we unveil a unique nucleo-olivary loop in the cerebellum and its involvement in coordinating high-velocity movements. Activating the excitatory nucleo-olivary pathway induces well-timed internal feedback complex spike signals in Purkinje cells to shape cerebellar outputs. Anatomical tracing reveals extensive axonal collaterals from the excitatory nucleo-olivary neurons to downstream motor regions, supporting integration of motor output and internal feedback signals within the cerebellum. This pathway directly drives saccades and head movements with a converging direction, while curtailing their amplitude and velocity via the powerful internal feedback mechanism. Our finding challenges the long-standing dogma that the cerebellum inhibits the inferior olivary pathway and provides a new circuit mechanism for the cerebellar control of high-velocity movements.

Topics & Concepts

NeuroscienceCerebellumExcitatory postsynaptic potentialMotor controlKinematicsMechanism (biology)BiologyPhysicsInhibitory postsynaptic potentialQuantum mechanicsClassical mechanicsVestibular and auditory disordersNeuroscience and Neuropharmacology ResearchNeural dynamics and brain function
Excitatory nucleo-olivary pathway shapes cerebellar outputs for motor control | Litcius