Abstract
Altered proteolytic processing of the β-amyloid precursor protein (APP) is a central event in familial and sporadic Alzheimers disease (AD). In a process termed regulated intramembrane proteolysis (RIP), APP first undergoes ectodomain shedding executed either by α- secretases at the plasma membrane or by β-secretase in the endosomal compartment. The remaining membrane-anchored stubs are cleaved within the membrane plane by the γ-secretase complex, releasing the APP intracellular domain (AICD) into the cytosol and leading to the generation of the Aβ peptide in the amyloidogenic pathway that is initiated by β-secretase. The Aβ peptides aggregate to form soluble oligomers and finally deposit into amyloid plaques that are a hallmark of AD. Recent evidence indicates a role for Aβ oligomers in regulating synaptic plasticity with excess amounts of oligomers disrupting synaptic function. The amyloid cascade hypothesis of AD is centered on the Aβ peptide, the APP fragment that has been most intensely studied, while other cleavage products have been largely neglected. The secreted ectodomain generated after α-cleavage in the non-amyloidogenic pathway has neurotrophic and neuroproliferative activities, thus opposing the neurotoxicity observed with high concentrations of Aβ. Further, in analogy to many other membrane proteins that are subject to RIP, AICD can translocate to the nucleus to regulate transcription. Many RIP substrates are localized to the synapse and thus could convey a direct signal from the synapse to the nucleus upon cleavage. Evidence indicates that only the amyloidogenic pathway generates AICD capable of nuclear signaling, due to the subcellular compartmentalization of APP processing. In aging and sporadic AD there is an increase in β-secretase levels and activity generating more Aβ peptides and concomitantly leading to an increase in AICD nuclear signaling. In this review, I summarize the current knowledge on AICD nuclear signaling and propose mechanisms to explain how this physiological function of APP might impact the pathology seen in AD.
Keywords: Alzheimer's disease, amyloid precursor protein, APP, AICD, nuclear signaling, Fe65, regulated intramembrane proteolysis, RIP, synapse, endosome
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