Dendritic spines are postsynaptic domains that shape structural and functional properties of neurons. Upon neuronal activity, Ca2+ transients trigger signaling cascades that determine the plastic remodeling of dendritic spines, which modulate learning and memory. Here, we study in mice the role of the intracellular Ca2+ channel Ryanodine Receptor 2 (RyR2) in synaptic plasticity and memory formation. We demonstrate that loss of RyR2 in pyramidal neurons of the hippocampus impairs maintenance and activity-evoked structural plasticity of dendritic spines during memory acquisition. Furthermore, post-developmental deletion of RyR2 causes loss of excitatory synapses, dendritic sparsification, overcompensatory excitability, network hyperactivity and disruption of spatially tuned place cells. Altogether, our data underpin RyR2 as a link between spine remodeling, circuitry dysfunction and memory acquisition, which closely resemble pathological mechanisms observed in neurodegenerative disorders.

Loss of Ryanodine Receptor 2 impairs neuronal activity-dependent remodeling of dendritic spines and triggers compensatory neuronal hyperexcitability / F. Bertan, L. Wischhof, L. Sosulina, M. Mittag, D. Dalugge, A. Fornarelli, F. Gardoni, E. Marcello, M. Di Luca, M. Fuhrmann, S. Remy, D. Bano, P. Nicotera. - In: CELL DEATH AND DIFFERENTIATION. - ISSN 1350-9047. - 27:(2020 Dec), pp. 3354-3373. [10.1038/s41418-020-0584-2]

Loss of Ryanodine Receptor 2 impairs neuronal activity-dependent remodeling of dendritic spines and triggers compensatory neuronal hyperexcitability

F. Gardoni;E. Marcello;M. Di Luca;
2020

Abstract

Dendritic spines are postsynaptic domains that shape structural and functional properties of neurons. Upon neuronal activity, Ca2+ transients trigger signaling cascades that determine the plastic remodeling of dendritic spines, which modulate learning and memory. Here, we study in mice the role of the intracellular Ca2+ channel Ryanodine Receptor 2 (RyR2) in synaptic plasticity and memory formation. We demonstrate that loss of RyR2 in pyramidal neurons of the hippocampus impairs maintenance and activity-evoked structural plasticity of dendritic spines during memory acquisition. Furthermore, post-developmental deletion of RyR2 causes loss of excitatory synapses, dendritic sparsification, overcompensatory excitability, network hyperactivity and disruption of spatially tuned place cells. Altogether, our data underpin RyR2 as a link between spine remodeling, circuitry dysfunction and memory acquisition, which closely resemble pathological mechanisms observed in neurodegenerative disorders.
English
Settore BIO/14 - Farmacologia
Articolo
Esperti anonimi
Pubblicazione scientifica
   Synaptic Dysfunction in Alzheimer Disease
   SyDAD
   EUROPEAN COMMISSION
   H2020
   676144
dic-2020
8-lug-2020
Springer Nature
27
3354
3373
20
Pubblicato
Periodico con rilevanza internazionale
scopus
orcid
pubmed
crossref
datacite
Aderisco
info:eu-repo/semantics/article
Loss of Ryanodine Receptor 2 impairs neuronal activity-dependent remodeling of dendritic spines and triggers compensatory neuronal hyperexcitability / F. Bertan, L. Wischhof, L. Sosulina, M. Mittag, D. Dalugge, A. Fornarelli, F. Gardoni, E. Marcello, M. Di Luca, M. Fuhrmann, S. Remy, D. Bano, P. Nicotera. - In: CELL DEATH AND DIFFERENTIATION. - ISSN 1350-9047. - 27:(2020 Dec), pp. 3354-3373. [10.1038/s41418-020-0584-2]
open
Prodotti della ricerca::01 - Articolo su periodico
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Article (author)
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F. Bertan, L. Wischhof, L. Sosulina, M. Mittag, D. Dalugge, A. Fornarelli, F. Gardoni, E. Marcello, M. Di Luca, M. Fuhrmann, S. Remy, D. Bano, P. Nico...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/769404
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