npj Parkinson's Disease (Oct 2022)

Cathepsin L-containing exosomes from α-synuclein-activated microglia induce neurotoxicity through the P2X7 receptor

  • Tianfang Jiang,
  • Chuanying Xu,
  • Shane Gao,
  • Jia Zhang,
  • Jia Zheng,
  • Xiaolin Wu,
  • Qiuyun Lu,
  • Limei Cao,
  • Danjing Yang,
  • Jun Xu,
  • Xu Chen

DOI
https://doi.org/10.1038/s41531-022-00394-9
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 14

Abstract

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Abstract Uncontrolled microglial activation is pivotal to the pathogenesis of Parkinson’s disease (PD), which can secrete Cathepsin L (CTSL) to affect the survival of neurons in the PD patients; however, the precise mechanism has yet to be determined. We demonstrated for the first time that CTSL was mostly released by exosomes derived from α-Syn-activated microglia, resulting in neuronal damage and death. The elevation of CTSL activity was blocked by GW4869, suggesting a critical role for exosomes in mediating CTSL release. Furthermore, the P2X7R/PI3K/AKT signalling pathway was identified as the underlying molecular mechanism since specific antagonists of this signalling pathway, P2X7R knockdown and exosome release inhibitors significantly reduced the injury to cultured mouse cortical neurons. Our study suggests that increased extracellular release of CTSL from α-Syn-activated microglia through exosomes amplifies and aggravates of the neurotoxic effect of microglia, implying that CTSL may be involved in a fresh mechanism of PD pathogenesis, and serve as a potential biomarker and a target for PD drug development.