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J Neurochem. 2013 Jul;126(2):183-90. doi: 10.1111/jnc.12239. Epub 2013 Apr 3.

From synaptic spines to nuclear signaling: nuclear and synaptic actions of the amyloid precursor protein.

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Institute of Neuroscience-IoNS, Université Catholique de Louvain, Brussels, Belgium.


Despite intensive studies of the secretase-mediated processing of the amyloid precursor protein (APP) to form the amyloid β-peptide (Aβ), in relation to Alzheimer's disease (AD), no new therapeutic agents have reached the clinics based on reducing Aβ levels through the use of secretase inhibitors or immunotherapy. Furthermore, the normal neuronal functions of APP and its various metabolites still remain under-investigated and unclear. Here, we highlight emerging areas of APP function that may provide new insights into synaptic development, cognition, and gene regulation. By modulating expression levels of endogenous APP in primary cortical neurons, the frequency and amplitude of calcium oscillations is modified, implying a key role for APP in maintaining neuronal calcium homeostasis essential for synaptic transmission. Disruption of this homeostatic mechanism predisposes to aging and AD. Synaptic spine loss is a feature of neurogeneration resulting in learning and memory deficits, and emerging evidence indicates a role for APP, probably mediated via one or more of its metabolites, in spine structure and functions. The intracellular domain of APP (AICD) has also emerged as a key epigenetic regulator of gene expression controlling a diverse range of genes, including APP itself, the amyloid-degrading enzyme neprilysin, and aquaporin-1. A fuller understanding of the physiological and pathological actions of APP and its metabolic network could provide new opportunities for therapeutic intervention in AD.


AICD; APP; Alzheimer's disease; Aβ peptide; epigenetics; synaptic spines

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