Persistence of Learning-induced Synapses Depends on Neurotrophic Priming of Glucocorticoid Receptors

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2019 Jun 12

PMID 31182610

Citations 21

Authors

Margarita Arango-Lievano

Amelie M Borie

Yann Dromard

Maxime Murat

Michel G Desarmenien

Michael J Garabedian

Freddy Jeanneteau

Affiliations

Soon will be listed here.

Abstract

Stress can either promote or impair learning and memory. Such opposing effects depend on whether synapses persist or decay after learning. Maintenance of new synapses formed at the time of learning upon neuronal network activation depends on the stress hormone-activated glucocorticoid receptor (GR) and neurotrophic factor release. Whether and how concurrent GR and neurotrophin signaling integrate to modulate synaptic plasticity and learning is not fully understood. Here, we show that deletion of the neurotrophin brain-derived neurotrophic factor (BDNF)-dependent GR-phosphorylation (PO) sites impairs long-term memory retention and maintenance of newly formed postsynaptic dendritic spines in the mouse cortex after motor skills training. Chronic stress and the BDNF polymorphism Val66Met disrupt the BDNF-dependent GR-PO pathway necessary for preserving training-induced spines and previously acquired memories. Conversely, enrichment living promotes spine formation but fails to salvage training-related spines in mice lacking BDNF-dependent GR-PO sites, suggesting it is essential for spine consolidation and memory retention. Mechanistically, spine maturation and persistence in the motor cortex depend on synaptic mobilization of the glutamate receptor subunit A1 (GluA1) mediated by GR-PO Together, these findings indicate that regulation of GR-PO via activity-dependent BDNF signaling is important for the formation and maintenance of learning-dependent synapses. They also define a signaling mechanism underlying these effects.

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