Cell Reports (Oct 2016)

Endophilin-A Deficiency Induces the Foxo3a-Fbxo32 Network in the Brain and Causes Dysregulation of Autophagy and the Ubiquitin-Proteasome System

  • John D. Murdoch,
  • Christine M. Rostosky,
  • Sindhuja Gowrisankaran,
  • Amandeep S. Arora,
  • Sandra-Fausia Soukup,
  • Ramon Vidal,
  • Vincenzo Capece,
  • Siona Freytag,
  • Andre Fischer,
  • Patrik Verstreken,
  • Stefan Bonn,
  • Nuno Raimundo,
  • Ira Milosevic

DOI
https://doi.org/10.1016/j.celrep.2016.09.058
Journal volume & issue
Vol. 17, no. 4
pp. 1071 – 1086

Abstract

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Endophilin-A, a well-characterized endocytic adaptor essential for synaptic vesicle recycling, has recently been linked to neurodegeneration. We report here that endophilin-A deficiency results in impaired movement, age-dependent ataxia, and neurodegeneration in mice. Transcriptional analysis of endophilin-A mutant mice, complemented by proteomics, highlighted ataxia- and protein-homeostasis-related genes and revealed upregulation of the E3-ubiquitin ligase FBXO32/atrogin-1 and its transcription factor FOXO3A. FBXO32 overexpression triggers apoptosis in cultured cells and neurons but, remarkably, coexpression of endophilin-A rescues it. FBXO32 interacts with all three endophilin-A proteins. Similarly to endophilin-A, FBXO32 tubulates membranes and localizes on clathrin-coated structures. Additionally, FBXO32 and endophilin-A are necessary for autophagosome formation, and both colocalize transiently with autophagosomes. Our results point to a role for endophilin-A proteins in autophagy and protein degradation, processes that are impaired in their absence, potentially contributing to neurodegeneration and ataxia.

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