A Novel FN-MdV Pathway and Its Role in Cerebellar Multimodular Control of Sensorimotor Behavior

Wang, Xiaolu; Yu, Siyang; Ren, Zhong; Zeeuw, Chris I. De; Gao, Zhenyu

doi:10.21203/rs.3.rs-43736/v1

Cited by 2 publications

(4 citation statements)

References 67 publications

(133 reference statements)

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“…The data on suppression PCs in the medial cerebellum showing a relatively late SS modulation during execution of both pro-and antisaccades as well as those on facilitation PCs in the lateral cerebellum showing a prominent modulation at the end of the instruction of antisaccades indicate that different modules of different cerebellar regions can simultaneously contribute to the same complex behavior, yet with different particularities. A similar conclusion was drawn from a recent study on delay eyeblink conditioning 70 . Even though this form of conditioning is classically considered to be controlled solely by modules in lobule simplex of the lateral cerebellum[Citation error], Wang and colleagues have shown that modules of the medial cerebellum are equally essential, yet also contributing in a slightly differential fashion, possibly regulating mainly muscle tone 70 .…”

Section: Cerebellar Modules Operate In Parallelsupporting

confidence: 87%

“…A similar conclusion was drawn from a recent study on delay eyeblink conditioning 70 . Even though this form of conditioning is classically considered to be controlled solely by modules in lobule simplex of the lateral cerebellum[Citation error], Wang and colleagues have shown that modules of the medial cerebellum are equally essential, yet also contributing in a slightly differential fashion, possibly regulating mainly muscle tone 70 . Interestingly, similar to the current pro-and antisaccade tasks, during eyeblink conditioning the medial and lateral cerebellum also both engage facilitation and suppression cells, and they also operate at relatively low and high baseline firing frequencies, respectively 37,70 .…”

Section: Cerebellar Modules Operate In Parallelsupporting

confidence: 87%

“…Even though this form of conditioning is classically considered to be controlled solely by modules in lobule simplex of the lateral cerebellum[Citation error], Wang and colleagues have shown that modules of the medial cerebellum are equally essential, yet also contributing in a slightly differential fashion, possibly regulating mainly muscle tone 70 . Interestingly, similar to the current pro-and antisaccade tasks, during eyeblink conditioning the medial and lateral cerebellum also both engage facilitation and suppression cells, and they also operate at relatively low and high baseline firing frequencies, respectively 37,70 . Our current finding that facilitation and suppression cells appear to play a more dominant role during the instruction and execution of the saccade task, respectively, further highlights the differential functional relevance of the upbound and downbound modules[Citation error].…”

Section: Cerebellar Modules Operate In Parallelmentioning

confidence: 99%

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Purkinje Cell Activity in Medial and Lateral Cerebellum During Suppression of Voluntary Eye Movements in Rhesus Macaques

Avila

Flierman

Holland

et al. 2021

Preprint

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Conscious control of actions helps us to reach our goals by suppressing responses to distracting external stimuli. The cerebellum has been suggested to complement cerebral control of inhibition of targeted movements (conscious control), though by what means, remains unclear. By measuring Purkinje cell (PC) responses during antisaccades, we show that the cerebellum not only plays a role in the execution of eye movements, but also in during the volitional inhibition thereof. We found that simple spike (SS) modulation during instruction and execution of prosaccades and antisaccades was prominent in PCs of both medial and lateral cerebellum, showing distinct, time- ordered sequences, but each with different sensitivities for execution and trial-history. SS activity in both regions modulated bidirectionally, with both facilitation (increasing SS firing) and suppression (decreasing SS firing) PCs showing firing-rate changes associated with instruction and execution, respectively. These findings show that different cerebellar regions can contribute to behavioral control and inhibition, but with different propensities, enriching the cerebellar machinery in executive control.

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Section: Cerebellar Modules Operate In Parallelsupporting

confidence: 87%

Section: Cerebellar Modules Operate In Parallelsupporting

confidence: 87%

Section: Cerebellar Modules Operate In Parallelmentioning

confidence: 99%

See 1 more Smart Citation

Purkinje Cell Activity in Medial and Lateral Cerebellum During Suppression of Voluntary Eye Movements in Rhesus Macaques

Avila

Flierman

Holland

et al. 2021

Preprint

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show abstract

“…For example, PC activity in the lobule simplex of rhesus monkeys correlates strongly with the velocity of horizontal eye movements (Marple-Horvat & Stein, 1990). Likewise, PCs in the lobule simplex of mice play a role in delay eyeblink conditioning (Heiney, Wohl et al, 2014;ten Brinke et al, 2015;Wang et al, 2020), while those in rabbits have been shown to contribute to conditioning of the nictitating membrane response (Schreurs et al, 1991). The current findings on a potential role of PCs in the murine lobule simplex in controlling kinematics of whisker movements are in line with the observations by Sharp & Gonzalez (1985), who showed that stimulation of the whiskers in rats alters activity in the lobule simplex.…”

Section: Motor Control By the Paramedian Lobule And Lobule Simplexmentioning

confidence: 99%

Whisker kinematics in the cerebellum

Zhai,

Romano,

Soggia

et al. 2023

The Journal of Physiology

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The whisker system is widely used as a model system for understanding sensorimotor integration. Purkinje cells in the crus regions of the cerebellum have been reported to linearly encode whisker midpoint, but it is unknown whether the paramedian and simplex lobules as well as their target neurons in the cerebellar nuclei also encode whisker kinematics and if so which ones. Elucidating how these kinematics are represented throughout the cerebellar hemisphere is essential for understanding how the cerebellum coordinates multiple sensorimotor modalities. Exploring the cerebellar hemisphere of mice using optogenetic stimulation, we found that whisker movements can be elicited by stimulation of Purkinje cells in not only crus1 and crus2, but also in the paramedian lobule and lobule simplex; activation of cells in the medial paramedian lobule had on average the shortest latency, whereas that of cells in lobule simplex elicited similar kinematics as those in crus1 and crus2. During spontaneous whisking behaviour, simple spike activity correlated in general better with velocity than position of the whiskers, but it varied between protraction and retraction as well as per lobule. The cerebellar nuclei neurons targeted by the Purkinje cells showed similar activity patterns characterized by a wide variety of kinematic signals, yet with a dominance for velocity. Taken together, our data indicate that whisker movements are much more prominently and diversely represented in the cerebellar cortex and nuclei than assumed, highlighting the rich repertoire of cerebellar control in the kinematics of movements that can be engaged during coordination. imageKey points Excitation of Purkinje cells throughout the cerebellar hemispheres induces whisker movement, with the shortest latency and longest duration within the paramedian lobe. Purkinje cells have differential encoding for the fast and slow components of whisking. Purkinje cells encode not only the position but also the velocity of whiskers. Purkinje cells with high sensitivity for whisker velocity are preferentially located in the medial part of lobule simplex, crus1 and lateral paramedian. In the downstream cerebellar nuclei, neurons with high sensitivity for whisker velocity are located at the intersection between the medial and interposed nucleus.

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A Novel FN-MdV Pathway and Its Role in Cerebellar Multimodular Control of Sensorimotor Behavior

Cited by 2 publications

References 67 publications

Purkinje Cell Activity in Medial and Lateral Cerebellum During Suppression of Voluntary Eye Movements in Rhesus Macaques

Purkinje Cell Activity in Medial and Lateral Cerebellum During Suppression of Voluntary Eye Movements in Rhesus Macaques

Whisker kinematics in the cerebellum

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