The Effect of Nucleo-Olivary Stimulation on Climbing Fiber EPSPs in Purkinje Cells

Josefine Öhman; Elias Sjölin; Maurizio Cundari; Fredrik Johansson; Mike Gilbert; Henk-Jan Boele; Pär Svensson; Anders Rasmussen

doi:10.1007/s12311-024-01682-1

The Effect of Nucleo-Olivary Stimulation on Climbing Fiber EPSPs in Purkinje Cells

Josefine Öhman, Elias Sjölin, Maurizio Cundari, Fredrik Johansson, Mike Gilbert, Henk-Jan Boele, Pär Svensson, Anders Rasmussen

Research output: Contribution to journal › Article › peer-review

Abstract

Climbing fibers, connecting the inferior olive and Purkinje cells, form the nervous system's strongest neural connection. These fibers activate after critical events like motor errors or anticipation of rewards, leading to bursts of excitatory postsynaptic potentials (EPSPs) in Purkinje cells. The number of EPSPs is a crucial variable when the brain is learning a new motor skill. Yet, we do not know what determines the number of EPSPs. Here, we measured the effect of nucleo-olivary stimulation on periorbital elicited climbing fiber responses through in-vivo intracellular Purkinje cell recordings in decerebrated ferrets. The results show that while nucleo-olivary stimulation decreased the probability of a response occurring at all, it did not reduce the number of EPSPs. The results suggest that nucleo-olivary stimulation does not influence the number of EPSPs in climbing fiber bursts.

Original language	English
Pages (from-to)	1859-1866
Number of pages	8
Journal	Cerebellum
Volume	23
Issue number	5
Early online date	2024 Mar 11
DOIs	https://doi.org/10.1007/s12311-024-01682-1
Publication status	Published - 2024

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Neurology

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10.1007/s12311-024-01682-1Licence: CC BY

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abstract = "Climbing fibers, connecting the inferior olive and Purkinje cells, form the nervous system's strongest neural connection. These fibers activate after critical events like motor errors or anticipation of rewards, leading to bursts of excitatory postsynaptic potentials (EPSPs) in Purkinje cells. The number of EPSPs is a crucial variable when the brain is learning a new motor skill. Yet, we do not know what determines the number of EPSPs. Here, we measured the effect of nucleo-olivary stimulation on periorbital elicited climbing fiber responses through in-vivo intracellular Purkinje cell recordings in decerebrated ferrets. The results show that while nucleo-olivary stimulation decreased the probability of a response occurring at all, it did not reduce the number of EPSPs. The results suggest that nucleo-olivary stimulation does not influence the number of EPSPs in climbing fiber bursts.",

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AU - Öhman, Josefine

AU - Sjölin, Elias

AU - Cundari, Maurizio

AU - Johansson, Fredrik

AU - Gilbert, Mike

AU - Boele, Henk-Jan

AU - Svensson, Pär

AU - Rasmussen, Anders

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AB - Climbing fibers, connecting the inferior olive and Purkinje cells, form the nervous system's strongest neural connection. These fibers activate after critical events like motor errors or anticipation of rewards, leading to bursts of excitatory postsynaptic potentials (EPSPs) in Purkinje cells. The number of EPSPs is a crucial variable when the brain is learning a new motor skill. Yet, we do not know what determines the number of EPSPs. Here, we measured the effect of nucleo-olivary stimulation on periorbital elicited climbing fiber responses through in-vivo intracellular Purkinje cell recordings in decerebrated ferrets. The results show that while nucleo-olivary stimulation decreased the probability of a response occurring at all, it did not reduce the number of EPSPs. The results suggest that nucleo-olivary stimulation does not influence the number of EPSPs in climbing fiber bursts.

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The Effect of Nucleo-Olivary Stimulation on Climbing Fiber EPSPs in Purkinje Cells

Abstract

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UN SDGs

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