Cell Reports (Jun 2020)

Depletion of the AD Risk Gene SORL1 Selectively Impairs Neuronal Endosomal Traffic Independent of Amyloidogenic APP Processing

  • Allison Knupp,
  • Swati Mishra,
  • Refugio Martinez,
  • Jacquelyn E. Braggin,
  • Marcell Szabo,
  • Chizuru Kinoshita,
  • Dale W. Hailey,
  • Scott A. Small,
  • Suman Jayadev,
  • Jessica E. Young

Journal volume & issue
Vol. 31, no. 9

Abstract

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Summary: SORL1/SORLA is a sorting receptor involved in retromer-related endosomal traffic and an Alzheimer’s disease (AD) risk gene. Using CRISPR-Cas9, we deplete SORL1 in hiPSCs to ask if loss of SORL1 contributes to AD pathogenesis by endosome dysfunction. SORL1-deficient hiPSC neurons show early endosome enlargement, a hallmark cytopathology of AD. There is no effect of SORL1 depletion on endosome size in hiPSC microglia, suggesting a selective effect on neuronal endosomal trafficking. We validate defects in neuronal endosomal traffic by showing altered localization of amyloid precursor protein (APP) in early endosomes, a site of APP cleavage by the β-secretase (BACE). Inhibition of BACE does not rescue endosome enlargement in SORL1-deficient neurons, suggesting that this phenotype is independent of amyloidogenic APP processing. Our data, together with recent findings, underscore how sporadic AD pathways regulating endosomal trafficking and autosomal-dominant AD pathways regulating APP cleavage independently converge on the defining cytopathology of AD.

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