Aberrant survival of hippocampal Cajal-Retzius cells leads to memory deficits, gamma rhythmopathies and susceptibility to seizures in adult mice

Cajal-Retzius cells (CRs) are transient neurons, disappearing almost completely in the postnatal neocortex by programmed cell death (PCD), with a percentage surviving up to adulthood in the hippocampus. Here, we evaluate CR’s role in the establishment of adult neuronal and cognitive function using a...

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Bibliographic Details
Published in:Nature communications 2023-03, Vol.14 (1), p.1531-1531, Article 1531
Main Authors: Riva, Martina, Moriceau, Stéphanie, Morabito, Annunziato, Dossi, Elena, Sanchez-Bellot, Candela, Azzam, Patrick, Navas-Olive, Andrea, Gal, Beatriz, Dori, Francesco, Cid, Elena, Ledonne, Fanny, David, Sabrina, Trovero, Fabrice, Bartolomucci, Magali, Coppola, Eva, Rebola, Nelson, Depaulis, Antoine, Rouach, Nathalie, de la Prida, Liset Menendez, Oury, Franck, Pierani, Alessandra
Format: Article
Language:English
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Animals
Apoptosis
Cell death
Cerebral cortex
Cognitive ability
Cognitive Sciences
Convulsions & seizures
Epilepsy
Functional morphology
Hippocampus
Hippocampus - physiology
Humanities and Social Sciences
Life Sciences
Memory
Memory Disorders - genetics
Memory Disorders - metabolism
Mice
multidisciplinary
Neocortex
Neurons
Neurons - metabolism
Neurons and Cognition
Neuropeptide Y
Phenotypes
Pyramidal cells
Pyramidal Cells - physiology
Science
Science (multidisciplinary)
Seizures
Seizures - genetics
Seizures - metabolism
Survival
Synaptic density
Theta rhythms
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Summary:Cajal-Retzius cells (CRs) are transient neurons, disappearing almost completely in the postnatal neocortex by programmed cell death (PCD), with a percentage surviving up to adulthood in the hippocampus. Here, we evaluate CR’s role in the establishment of adult neuronal and cognitive function using a mouse model preventing Bax-dependent PCD. CRs abnormal survival resulted in impairment of hippocampus-dependent memory, associated in vivo with attenuated theta oscillations and enhanced gamma activity in the dorsal CA1. At the cellular level, we observed transient changes in the number of NPY + cells and altered CA1 pyramidal cell spine density. At the synaptic level, these changes translated into enhanced inhibitory currents in hippocampal pyramidal cells. Finally, adult mutants displayed an increased susceptibility to lethal tonic-clonic seizures in a kainate model of epilepsy. Our data reveal that aberrant survival of a small proportion of postnatal hippocampal CRs results in cognitive deficits and epilepsy-prone phenotypes in adulthood. Cajal-Retzius neurons number drastically decreases during postnatal life. Here, authors show that their programmed death is required for the construction of functional hippocampal circuits and memory with aberrant survival leading to gamma rhythmopathies and susceptibility to seizures.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-023-37249-7