Autophagy Is Required for Memory Formation and Reverses Age-Related Memory Decline

Age-related declines in cognitive fitness are associated with a reduction in autophagy, an intracellular lysosomal catabolic process that regulates protein homeostasis and organelle turnover. However, the functional significance of autophagy in regulating cognitive function and its decline during ag...

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Published in:Current biology Vol. 29; no. 3; pp. 435 - 448.e8
Main Authors: Glatigny, Mélissa, Moriceau, Stéphanie, Rivagorda, Manon, Ramos-Brossier, Mariana, Nascimbeni, Anna C., Lante, Fabien, Shanley, Mary R., Boudarene, Nadir, Rousseaud, Audrey, Friedman, Allyson K., Settembre, Carmine, Kuperwasser, Nicolas, Friedlander, Gérard, Buisson, Alain, Morel, Etienne, Codogno, Patrice, Oury, Franck
Format: Journal Article
Language:English
Published: England Elsevier Ltd 04-02-2019
Elsevier
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Summary:Age-related declines in cognitive fitness are associated with a reduction in autophagy, an intracellular lysosomal catabolic process that regulates protein homeostasis and organelle turnover. However, the functional significance of autophagy in regulating cognitive function and its decline during aging remains largely elusive. Here, we show that stimulating memory upregulates autophagy in the hippocampus. Using hippocampal injections of genetic and pharmacological modulators of autophagy, we find that inducing autophagy in hippocampal neurons is required to form novel memory by promoting activity-dependent structural and functional synaptic plasticity, including dendritic spine formation, neuronal facilitation, and long-term potentiation. We show that hippocampal autophagy activity is reduced during aging and that restoring its levels is sufficient to reverse age-related memory deficits. Moreover, we demonstrate that systemic administration of young plasma into aged mice rejuvenates memory in an autophagy-dependent manner, suggesting a prominent role for autophagy to favor the communication between systemic factors and neurons in fostering cognition. Among these youthful factors, we identify osteocalcin, a bone-derived molecule, as a direct hormonal inducer of hippocampal autophagy. Our results reveal that inducing autophagy in hippocampal neurons is a necessary mechanism to enhance the integration of novel stimulations of memory and to promote the influence of systemic factors on cognitive fitness. We also demonstrate the potential therapeutic benefits of modulating autophagy in the aged brain to counteract age-related cognitive impairments. •Autophagy induction in hippocampal neurons is required to promote memory formation•Hippocampal autophagy induction enhances activity-dependent synaptic plasticity•Inducing autophagy in old hippocampi is sufficient to reverse age-impaired memory•Autophagy integrates the effects of youthful systemic factors in the aged brain Glatigny et al. show that autophagy induction in hippocampal neurons enhances cognition by promoting memory formation and integrating the effects of youthful systemic factors. During aging, hippocampal autophagy is reduced and its induction is sufficient to improve age-impaired memory.
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ISSN:0960-9822
1879-0445
DOI:10.1016/j.cub.2018.12.021