Oligodendrocyte precursor cells facilitate neuronal lysosome release

  1. Li-Pao Fang
  2. Ching-Hsin Lin
  3. Yasser Medlej
  4. Renping Zhao
  5. Hsin-Fang Chang
  6. Qilin Guo
  7. Zhonghao Wu
  8. Yixun Su
  9. Na Zhao
  10. Davide Gobbo
  11. Amanda Wyatt
  12. Vanessa Wahl
  13. Frederic Fiore
  14. Szu-Min Tu
  15. Ulrich Boehm
  16. Wenhui Huang
  17. Shan Bian
  18. Amit Agarwal
  19. Marcel A. Lauterbach
  20. Chenju Yi
  21. Jianqin Niu
  22. Anja Scheller
  23. Frank Kirchhoff
  24. Xianshu Bai
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Abstract

Oligodendrocyte precursor cells (OPCs) shape brain function through many non-canonical regulatory mechanisms beyond myelination. Here we show that OPCs form contacts with their processes on neuronal somata in a neuronal activity-dependent manner. These contacts facilitate exocytosis of neuronal lysosomes. A reduction in the number or branching of OPCs reduces these contacts, which is associated with lysosome accumulation and altered metabolism in neurons and more senescent neurons with age. A similar reduction in OPC branching and neuronal lysosome accumulation is seen in an early-stage mouse model of Alzheimer’s disease. Our findings have implications for the prevention of age-related pathologies and the treatment of neurodegenerative diseases.

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  1. Version published to 10.1038/s41467-025-56484-8
  2. Version published to 10.1101/2024.03.03.583173 on bioRxiv