Compromised Survival of Cerebellar Molecular Layer Interneurons Lacking GDNF Receptors GFRα1 or RET Impairs Normal Cerebellar Motor Learning

Compromised Survival of Cerebellar Molecular Layer Interneurons Lacking GDNF Receptors GFRα1 or RET Impairs Normal Cerebellar Motor Learning

The role of neurotrophic factors as endogenous survival proteins for brain neurons remains contentious. In the cerebellum, the signals controlling survival of molecular layer interneurons (MLIs) are unknown, and direct evidence for the requirement of a full complement of MLIs for normal cerebellar f...

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Bibliographic Details
Main Authors: Maria Christina Sergaki, Juan Carlos López-Ramos, Stefanos Stagkourakis, Agnès Gruart, Christian Broberger, José María Delgado-García, Carlos F. Ibáñez
Format: Article
Language:English
Published: Elsevier 2017-06-01
Series:Cell Reports
Subjects:
cerebellum
eyeblink conditioning
neuronal migration
Purkinje cell
synaptic inhibition
vestibulo-ocular reflex
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124717306721
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spelling doaj-caccdd5322ba46afbd6d46592e571c4b2020-11-24T21:55:28ZengElsevierCell Reports2211-12472017-06-0119101977198610.1016/j.celrep.2017.05.030Compromised Survival of Cerebellar Molecular Layer Interneurons Lacking GDNF Receptors GFRα1 or RET Impairs Normal Cerebellar Motor LearningMaria Christina Sergaki0Juan Carlos López-Ramos1Stefanos Stagkourakis2Agnès Gruart3Christian Broberger4José María Delgado-García5Carlos F. Ibáñez6Department of Neuroscience, Karolinska Institute, Stockholm S-17177, SwedenDivision of Neurosciences, Pablo de Olavide University, Seville 41013, SpainDepartment of Neuroscience, Karolinska Institute, Stockholm S-17177, SwedenDivision of Neurosciences, Pablo de Olavide University, Seville 41013, SpainDepartment of Neuroscience, Karolinska Institute, Stockholm S-17177, SwedenDivision of Neurosciences, Pablo de Olavide University, Seville 41013, SpainDepartment of Neuroscience, Karolinska Institute, Stockholm S-17177, SwedenThe role of neurotrophic factors as endogenous survival proteins for brain neurons remains contentious. In the cerebellum, the signals controlling survival of molecular layer interneurons (MLIs) are unknown, and direct evidence for the requirement of a full complement of MLIs for normal cerebellar function and motor learning has been lacking. Here, we show that Purkinje cells (PCs), the target of MLIs, express the neurotrophic factor GDNF during MLI development and survival of MLIs depends on GDNF receptors GFRα1 and RET. Conditional mutant mice lacking either receptor lose a quarter of their MLIs, resulting in compromised synaptic inhibition of PCs, increased PC firing frequency, and abnormal acquisition of eyeblink conditioning and vestibulo-ocular reflex performance, but not overall motor activity or coordination. These results identify an endogenous survival mechanism for MLIs and reveal the unexpected vulnerability and selective requirement of MLIs in the control of cerebellar-dependent motor learning.http://www.sciencedirect.com/science/article/pii/S2211124717306721cerebellumeyeblink conditioningneuronal migrationPurkinje cellsynaptic inhibitionvestibulo-ocular reflex
collection DOAJ
language English
format Article
sources DOAJ
author Maria Christina Sergaki
Juan Carlos López-Ramos
Stefanos Stagkourakis
Agnès Gruart
Christian Broberger
José María Delgado-García
Carlos F. Ibáñez
spellingShingle Maria Christina Sergaki
Juan Carlos López-Ramos
Stefanos Stagkourakis
Agnès Gruart
Christian Broberger
José María Delgado-García
Carlos F. Ibáñez
Compromised Survival of Cerebellar Molecular Layer Interneurons Lacking GDNF Receptors GFRα1 or RET Impairs Normal Cerebellar Motor Learning
Cell Reports
cerebellum
eyeblink conditioning
neuronal migration
Purkinje cell
synaptic inhibition
vestibulo-ocular reflex
author_facet Maria Christina Sergaki
Juan Carlos López-Ramos
Stefanos Stagkourakis
Agnès Gruart
Christian Broberger
José María Delgado-García
Carlos F. Ibáñez
author_sort Maria Christina Sergaki
title Compromised Survival of Cerebellar Molecular Layer Interneurons Lacking GDNF Receptors GFRα1 or RET Impairs Normal Cerebellar Motor Learning
title_short Compromised Survival of Cerebellar Molecular Layer Interneurons Lacking GDNF Receptors GFRα1 or RET Impairs Normal Cerebellar Motor Learning
title_full Compromised Survival of Cerebellar Molecular Layer Interneurons Lacking GDNF Receptors GFRα1 or RET Impairs Normal Cerebellar Motor Learning
title_fullStr Compromised Survival of Cerebellar Molecular Layer Interneurons Lacking GDNF Receptors GFRα1 or RET Impairs Normal Cerebellar Motor Learning
title_full_unstemmed Compromised Survival of Cerebellar Molecular Layer Interneurons Lacking GDNF Receptors GFRα1 or RET Impairs Normal Cerebellar Motor Learning
title_sort compromised survival of cerebellar molecular layer interneurons lacking gdnf receptors gfrα1 or ret impairs normal cerebellar motor learning
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2017-06-01
description The role of neurotrophic factors as endogenous survival proteins for brain neurons remains contentious. In the cerebellum, the signals controlling survival of molecular layer interneurons (MLIs) are unknown, and direct evidence for the requirement of a full complement of MLIs for normal cerebellar function and motor learning has been lacking. Here, we show that Purkinje cells (PCs), the target of MLIs, express the neurotrophic factor GDNF during MLI development and survival of MLIs depends on GDNF receptors GFRα1 and RET. Conditional mutant mice lacking either receptor lose a quarter of their MLIs, resulting in compromised synaptic inhibition of PCs, increased PC firing frequency, and abnormal acquisition of eyeblink conditioning and vestibulo-ocular reflex performance, but not overall motor activity or coordination. These results identify an endogenous survival mechanism for MLIs and reveal the unexpected vulnerability and selective requirement of MLIs in the control of cerebellar-dependent motor learning.
topic cerebellum
eyeblink conditioning
neuronal migration
Purkinje cell
synaptic inhibition
vestibulo-ocular reflex
url http://www.sciencedirect.com/science/article/pii/S2211124717306721
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