Abstract
The intracellular transport and localization of amyloid precursor protein (APP) are critical determinants of APP processing and β-amyloid peptide production, thus crucially important for the pathophysiology of Alzheimer’s disease (AD). Notably, the C-terminal Y682ENPTY687 domain of APP binds to specific adaptors controlling APP trafficking and sorting in neurons. Mutation on the Y682 residue to glycine (Y682G) leads to altered APP sorting in hippocampal neurons that favors its accumulation in intracellular compartments and the release of soluble APPα. Such alterations induce premature aging and learning and cognitive deficits in APP Y682G mutant mice (APPYG/YG). Here, we report that Y682G mutation affects formation of the APP complex with sortilin-related receptor (SorLA), resulting in endo-lysosomal dysfunctions and neuronal degeneration. Moreover, disruption of the APP/SorLA complex changes the trafficking pathway of SorLA, with its consequent increase in secretion outside neurons. Mutations in the SorLA gene are a prognostic factor in AD, and changes in SorLA levels in cerebrospinal fluid are predictive of AD in humans. These results might open new possibilities in comprehending the role played by SorLA in its interaction with APP and in the progression of neuronal degeneration. In addition, they further underline the crucial role played by Y682 residue in controlling APP trafficking in neurons.
Highlights
Amyloid precursor protein (APP) has been extensively studied for its role as the precursor of β-amyloid peptide (Aβ) in Alzheimer’s disease (AD)
Y682 MUTATION AFFECTS LYSOSOMAL ACTIVITY IN HIPPOCAMPAL YG mice (YG) NEURONS We investigated whether the observed accumulation of APP in lysosomalassociated membrane protein 1 (Lamp1)-positive vesicles leads to a defect in lysosomal activity
Altogether, our data further elucidate the role played by the Y682ENPTY687 domain in controlling APP trafficking and sorting in neurons
Summary
Amyloid precursor protein (APP) has been extensively studied for its role as the precursor of β-amyloid peptide (Aβ) in Alzheimer’s disease (AD). Amyloid precursor protein is a transmembrane protein that is actively sorted among numerous compartments in the cell. The newly translated APP polypeptide undergoes several post-translational modifications in the Golgi apparatus, including N- and O-glycosylation, sulfation, phosphorylation, and palmitoylation (Guo et al, 2012a; Jiang et al, 2014). Mature APP is trafficked to the cell surface. Once APP reaches the cell surface, it is rapidly internalized and subsequently trafficked through endocytic and recycling compartments back to the cell surface or degraded in the lysosome (Guo et al, 2012a; Jiang et al, 2014)
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