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Wipi3 is essential for alternative autophagy and its loss causes neurodegeneration

Author

Listed:
  • Hirofumi Yamaguchi

    (Tokyo Medical and Dental University)

  • Shinya Honda

    (Tokyo Medical and Dental University)

  • Satoru Torii

    (Tokyo Medical and Dental University)

  • Kimiko Shimizu

    (The University of Tokyo)

  • Kaoru Katoh

    (Biomedical Research Institute, National Institute of Advanced Industrial Science and Technology (AIST))

  • Koichi Miyake

    (Nippon Medical School)

  • Noriko Miyake

    (Nippon Medical School)

  • Nobuhiro Fujikake

    (Tokyo Medical and Dental University)

  • Hajime Tajima Sakurai

    (Tokyo Medical and Dental University)

  • Satoko Arakawa

    (Tokyo Medical and Dental University)

  • Shigeomi Shimizu

    (Tokyo Medical and Dental University)

Abstract

Alternative autophagy is an Atg5/Atg7-independent type of autophagy that contributes to various physiological events. We here identify Wipi3 as a molecule essential for alternative autophagy, but which plays minor roles in canonical autophagy. Wipi3 binds to Golgi membranes and is required for the generation of isolation membranes. We establish neuron-specific Wipi3-deficient mice, which show behavioral defects, mainly as a result of cerebellar neuronal loss. The accumulation of iron and ceruloplasmin is also found in the neuronal cells. These abnormalities are suppressed by the expression of Dram1, which is another crucial molecule for alternative autophagy. Although Atg7-deficient mice show similar phenotypes to Wipi3-deficient mice, electron microscopic analysis shows that they have completely different subcellular morphologies, including the morphology of organelles. Furthermore, most Atg7/Wipi3 double-deficient mice are embryonic lethal, indicating that Wipi3 functions to maintain neuronal cells via mechanisms different from those of canonical autophagy.

Suggested Citation

  • Hirofumi Yamaguchi & Shinya Honda & Satoru Torii & Kimiko Shimizu & Kaoru Katoh & Koichi Miyake & Noriko Miyake & Nobuhiro Fujikake & Hajime Tajima Sakurai & Satoko Arakawa & Shigeomi Shimizu, 2020. "Wipi3 is essential for alternative autophagy and its loss causes neurodegeneration," Nature Communications, Nature, vol. 11(1), pages 1-20, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-18892-w
    DOI: 10.1038/s41467-020-18892-w
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    Cited by:

    1. Hayden Weng Siong Tan & Guang Lu & Han Dong & Yik-Lam Cho & Auginia Natalia & Liming Wang & Charlene Chan & Dennis Kappei & Reshma Taneja & Shuo-Chien Ling & Huilin Shao & Shih-Yin Tsai & Wen-Xing Din, 2022. "A degradative to secretory autophagy switch mediates mitochondria clearance in the absence of the mATG8-conjugation machinery," Nature Communications, Nature, vol. 13(1), pages 1-17, December.

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