Insulin‐like growth factor 2 reverses memory and synaptic deficits in APP transgenic mice

Maria Pascual‐Lucas; Silvia Viana da Silva; Marianna Di Scala; Carolina Garcia‐Barroso; Gloria González‐Aseguinolaza; Christophe Mulle; Cristina M Alberini; Mar Cuadrado‐Tejedor; Ana Garcia‐Osta

doi:10.15252/emmm.201404228

EMBO Molecular Medicine (Oct 2014)

Insulin‐like growth factor 2 reverses memory and synaptic deficits in APP transgenic mice

Maria Pascual‐Lucas,
Silvia Viana da Silva,
Marianna Di Scala,
Carolina Garcia‐Barroso,
Gloria González‐Aseguinolaza,
Christophe Mulle,
Cristina M Alberini,
Mar Cuadrado‐Tejedor,
Ana Garcia‐Osta

Affiliations

Maria Pascual‐Lucas: Neurosciences Division Center for Applied Medical Research CIMA University of Navarra Pamplona Spain
Silvia Viana da Silva: Interdisciplinary Institute for Neuroscience Université of Bordeaux CNRS UMR 5297 Bordeaux France
Marianna Di Scala: Gene Therapy and Hepatology Division Center for Applied Medical Research CIMA University of Navarra Pamplona Spain
Carolina Garcia‐Barroso: Neurosciences Division Center for Applied Medical Research CIMA University of Navarra Pamplona Spain
Gloria González‐Aseguinolaza: Gene Therapy and Hepatology Division Center for Applied Medical Research CIMA University of Navarra Pamplona Spain
Christophe Mulle: Interdisciplinary Institute for Neuroscience Université of Bordeaux CNRS UMR 5297 Bordeaux France
Cristina M Alberini: Center for Neural Science New York University New York NY USA
Mar Cuadrado‐Tejedor: Neurosciences Division Center for Applied Medical Research CIMA University of Navarra Pamplona Spain
Ana Garcia‐Osta: Neurosciences Division Center for Applied Medical Research CIMA University of Navarra Pamplona Spain

DOI: https://doi.org/10.15252/emmm.201404228
Journal volume & issue: Vol. 6, no. 10
pp. 1246 – 1262

Abstract

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Abstract Insulin‐like growth factor 2 (IGF2) was recently found to play a critical role in memory consolidation in rats and mice, and hippocampal or systemic administration of recombinant IGF2 enhances memory. Here, using a gene therapy‐based approach with adeno‐associated virus (AAV), we show that IGF2 overexpression in the hippocampus of aged wild‐type mice enhances memory and promotes dendritic spine formation. Furthermore, we report that IGF2 expression decreases in the hippocampus of patients with Alzheimer's disease, and this leads us to hypothesize that increased IGF2 levels may be beneficial for treating the disease. Thus, we used the AAV system to deliver IGF2 or IGF1 into the hippocampus of the APP mouse model Tg2576 and demonstrate that IGF2 and insulin‐like growth factor 1 (IGF1) rescue behavioural deficits, promote dendritic spine formation and restore normal hippocampal excitatory synaptic transmission. The brains of Tg2576 mice that overexpress IGF2 but not IGF1 also show a significant reduction in amyloid levels. This reduction probably occurs through an interaction with the IGF2 receptor (IGF2R). Hence, IGF2 and, to a lesser extent, IGF1 may be effective treatments for Alzheimer's disease.

Published in EMBO Molecular Medicine

ISSN: 1757-4676 (Print); 1757-4684 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Genetics
Website: https://www.embopress.org/journal/17574684

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