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RABGAP1 acts as a sensor to facilitate sorting and processing of amyloid precursor protein

Abstract:

A key hallmark of Alzheimer's disease (AD) is the accumulation of extracellular amyloid-beta plaques in the brains of patients. Amyloid-beta is a 40-42 amino acid peptide produced by the proteolytic processing of amyloid precursor protein (APP) by a series of membrane-bound proteases. APP is a type-I transmembrane protein and thus its trafficking to encounter the proteases represents a rate-limiting step in the progression of AD. Although there has been a focused research effort to understand APP processing, its trafficking itinerary and machinery is incompletely understood. To address this we have performed an unbiased interaction screen for interactors of the cytosolic tail of APP. We identified previously characterised APP binders, as well as novel interactors. We have mapped the binding of APP to multiple new machineries, including RABGAP1. We have demonstrated that RABGAP1 partially colocalises with APP and directly interacts with a YENPTY motif in the APP cytosolic tail. Depletion or overexpression of RABGAP1 caused mistrafficking and misprocessing of endogenous APP in both human and rodent neurons. Interestingly, this effect was dependent on the GAP activity of RABGAP1, demonstrating that RABGAP1 affects the trafficking of APP by modulating the RAB activity on endosomal subdomains. This novel trafficking mechanism has implications for other NPXY cargoes and also presents a possible therapeutic avenue to explore.