Journal
JOURNAL OF NEUROSCIENCE
Volume 35, Issue 37, Pages 12703-12713Publisher
SOC NEUROSCIENCE
DOI: 10.1523/JNEUROSCI.0427-15.2015
Keywords
adaptors; APP processing; protein transport; retromer; SORLA; VPS10P domain receptors
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Funding
- Helmholtz-Association (iCEMED)
- Fritz-Thyssen-Foundation
- Alexander-von-Humboldt Foundation
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SORLA is a neuronal sorting receptor implicated both in sporadic and familial forms of AD. SORLA reduces the amyloidogenic burden by two mechanisms, either by rerouting internalized APP molecules from endosomes to the trans-Golgi network (TGN) to prevent proteolytic processing or by directing newly produced A beta to lysosomes for catabolism. Studies in cell lines suggested that the interaction of SORLA with cytosolic adaptors retromer and GGA is required for receptor sorting to and from the TGN. However, the relevance of anterograde or retrograde trafficking for SORL Aactivity in vivo remained largely unexplored. Here, we generated mouse models expressing SORLA variants lacking binding sites for GGA or retromer to query this concept in the brain. Disruption of retromer binding resulted in a retrograde-sorting defect with accumulation of SORLA in endosomes and depletion from the TGN, and in an overall enhanced APP processing. In contrast, disruption of the GGA interaction did not impact APP processing but caused increased brain A beta levels, a mechanism attributed to a defect in anterograde lysosomal targeting of A beta. Our findings substantiated the significance of adaptor-mediated sorting for SORLA activities in vivo, and they uncovered that anterograde and retrograde sorting paths may serve discrete receptor functions in amyloidogenic processes.
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