Abstract
Presenilin 1 (PS1) is an essential γ-secretase component, the enzyme responsible for amyloid precursor protein (APP) intramembraneous cleavage. Mutations in PS1 lead to dominant-inheritance of early-onset familial Alzheimer's disease (FAD). Although expression of FAD-linked PS1 mutations enhances toxic Aβ production, the importance of other APP metabolites and γ-secretase substrates in the etiology of the disease has not been confirmed. We report that neurons expressing FAD-linked PS1 variants or functionally deficient PS1 exhibit enhanced axodendritic outgrowth due to increased levels of APP intracellular C-terminal fragment (APP-CTF). APP expression is required for exuberant neurite outgrowth and hippocampal axonal sprouting observed in knock-in mice expressing FAD-linked PS1 mutation. APP-CTF accumulation initiates CREB signaling cascade through an association of APP-CTF with Gαs protein. We demonstrate that pathological PS1 loss-of-function impinges on neurite formation through a selective APP gain-of-function that could impact on axodendritic connectivity and contribute to aberrant axonal sprouting observed in AD patients.
Highlights
Alzheimer’s disease (AD) is a progressive neurodegenerative disease pathologically characterized by a cerebral deposition of b-amyloid peptide (Ab) in senile plaques and neuronal loss
We previously demonstrated that accumulation of amyloid precursor protein (APP)-C-terminal fragments (CTF) in the raft produced a marked increase of neurite extension in a variety of neuronal cells including cortical neurons (Deyts et al, 2012)
Quantitative analysis of pCREB staining intensity is represented as relative changes compared with empty vector (EV) transfected neurons. (c2) Western blot analysis of pCREB accumulation is shown in primary mouse embryonic fibroblasts (MEF) expressing EV, sAPPa, sAPPb or membrane-tethered APP intracellular domain (mAICD) that were generated from APP knockout (APP KO) mice
Summary
Alzheimer’s disease (AD) is a progressive neurodegenerative disease pathologically characterized by a cerebral deposition of b-amyloid peptide (Ab) in senile plaques and neuronal loss. Over 90 substrates have been identified so far including amyloid precursor protein (APP), Notch and Eph receptors and ligands, cadherins, and deleted in colorectal cancer (DCC) (Haapasalo and Kovacs, 2011; Kopan and Ilagan, 2004; McCarthy et al, 2009; Parks and Curtis, 2007). Several of these substrates are known for their diverse functions during neuronal development including axon guidance, neurite outgrowth, and synaptogenesis. Inhibiting g-secretase activity would prevent accumulation of Ab and AICD in
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