Abstract
The processing of Amyloid precursor protein (APP) is multifaceted, comprising of protein transport, internalization and sequential proteolysis. However, the exact mechanism of APP intracellular trafficking and distribution remains unclear. To determine the interaction between sortilin and APP and the effect of sortilin on APP trafficking and processing, we studied the binding site and its function by mapping experiments, colocalization, coimmunoprecipitation and sucrose gradient fractionation. We identified for the first time that sortilin interacts with APP at both N- and C-terminal regions. The sortilin-FLVHRY (residues 787–792) and APP-NPTYKFFE (residues 759–766) motifs are crucial for the C-terminal interaction. We also found that lack of the FLVHRY motif reduces APP lysosomal targeting and increases APP distribution in lipid rafts in co-transfected HEK293 cells. These results are consistent with our in vivo data where sortilin knockout mice showed a decrease of APP lysosomal distribution and an increase of APP in lipid rafts. We further confirmed that overexpression of sortilin-FLVHRY mutants failed to rescue the lysosomal degradation of APP. Thus, our data suggests that sortilin is implicated in APP lysosomal and lipid raft targeting via its carboxyl-terminal F/YXXXXF/Y motif. Our study provides new molecular insights into APP trafficking and processing.
Highlights
Amyloid precursor protein (APP) contributes to the production of beta-amyloid (Ab), which is a major component of senile plaques in the brain of Alzheimer’s disease (AD) patients [1,2]
We found that 1) sortilin is associated with APP via head-to-head and tail-to-tail interactions; and 2) sortilin regulates APP lysosomal and lipid raft trafficking through FLVHRY motif
Targeting and the Distribution in Lipid Rafts Our results show that sortilin is involved in APP intracellular distribution via the interaction between sortilin and APP
Summary
Amyloid precursor protein (APP) contributes to the production of beta-amyloid (Ab), which is a major component of senile plaques in the brain of Alzheimer’s disease (AD) patients [1,2]. The processing of APP to Ab involves numerous steps, including APP sorting, transport, internalization and sequential proteolysis [3,4]. Synthesized APP in endoplasmic reticulum (ER) is sorted through the trans-Golgi-network (TGN), trafficked to the cell surface membrane [5], and internalized via its NPTY motif near the C terminus of APP into endosome/TGN for recycling or into lysosome for degradation [6], [7]. Altered routing of APP trafficking and distribution in neurons might lead to the amyloidogenic pathway, which is implicated in the pathology of AD. The intracellular distribution and transport of APP are critical for Ab production. Several APP binding factors have been reported, for example, Huntingtin and kinesin light chain are involved in APP axonal transport in neurons [9], [10,11], the exact mechanism of APP intracellular trafficking and distribution remains unclear
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