Restoring polyamines protects from age-induced memory impairment in an autophagy-dependent manner

• Published in: Nature neuroscience Vol. 16; no. 10; pp. 1453 - 1460
• Main Authors: Gupta, Varun K, Scheunemann, Lisa, Eisenberg, Tobias, Mertel, Sara, Bhukel, Anuradha, Koemans, Tom S, Kramer, Jamie M, Liu, Karen S Y, Schroeder, Sabrina, Stunnenberg, Hendrik G, Sinner, Frank, Magnes, Christoph, Pieber, Thomas R, Dipt, Shubham, Fiala, André, Schenck, Annette, Schwaerzel, Martin, Madeo, Frank, Sigrist, Stephan J
• Format: Journal Article
• Language: English
• Published: New York Nature Publishing Group US 01.10.2013; Nature Publishing Group
• Subjects: 631/378/2612; Adenosine; Age; Aging; Aging - drug effects; Aging - pathology; Animal Genetics and Genomics; Animals; Animals, Genetically Modified; Autophagy; Autophagy (Cytology); Autophagy - drug effects; Autophagy - physiology; Behavioral Sciences; Biological Techniques; Biomedicine; Care and treatment; Diptera; Drosophila; Enzymes; Genetics; Insects; Life sciences; Memory; Memory Disorders - metabolism; Memory Disorders - pathology; Memory Disorders - prevention & control; Memory, Disorders of; Motor Activity - drug effects; Motor Activity - physiology; Neurobiology; Neuroprotective Agents - metabolism; Neuroprotective Agents - pharmacology; Neuroprotective Agents - therapeutic use; Neurosciences; Observations; Odors; Physiological aspects; Polyamines; Polyamines - metabolism; Polyamines - pharmacology; Polyamines - therapeutic use; Properties; Spermidine - metabolism; Spermidine - pharmacology; Spermidine - therapeutic use; Netherlands; Austria; Berlin Germany; Germany
• ISSN: 1097-6256; 1546-1726
• DOI: 10.1038/nn.3512

Polyamines such as spermidine and putrescine are known to promote autophagy and longevity in fruit flies. Similar to many other organisms, Drosophila also display age-induced memory impairment. Here, Gupta et al . find that a decrease in brain polyamines in aging Drosophila is correlated with age-dependent memory impairment. They also find that polyamines in flies' diet can alleviate this impairment, demonstrating a link between polyamines, autophagy and memory decline. Age-dependent memory impairment is known to occur in several organisms, including Drosophila , mouse and human. However, the fundamental cellular mechanisms that underlie these impairments are still poorly understood, effectively hampering the development of pharmacological strategies to treat the condition. Polyamines are among the substances found to decrease with age in the human brain. We found that levels of polyamines (spermidine, putrescine) decreased in aging fruit flies, concomitant with declining memory abilities. Simple spermidine feeding not only restored juvenile polyamine levels, but also suppressed age-induced memory impairment. Ornithine decarboxylase-1, the rate-limiting enzyme for de novo polyamine synthesis, also protected olfactory memories in aged flies when expressed specifically in Kenyon cells, which are crucial for olfactory memory formation. Spermidine-fed flies showed enhanced autophagy (a form of cellular self-digestion), and genetic deficits in the autophagic machinery prevented spermidine-mediated rescue of memory impairments. Our findings indicate that autophagy is critical for suppression of memory impairments by spermidine and that polyamines, which are endogenously present, are candidates for pharmacological intervention.