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Glucocerebrosidase depletion enhances cell-to-cell transmission of α-synuclein

Author

Listed:
  • Eun-Jin Bae

    (Konkuk University)

  • Na-Young Yang

    (Konkuk University)

  • Miyoung Song

    (Konkuk University)

  • Cheol Soon Lee

    (School of Medicine, Konkuk University)

  • Jun Sung Lee

    (Konkuk University)

  • Byung Chul Jung

    (Konkuk University
    College of Health Science, Yonsei University)

  • He-Jin Lee

    (School of Medicine, Konkuk University)

  • Seokjoong Kim

    (ToolGen, Inc., Biotechnology Incubating Center, Seoul National University)

  • Eliezer Masliah

    (University of California, San Diego)

  • Sergio Pablo Sardi

    (Genzyme, a Sanofi Company)

  • Seung-Jae Lee

    (Konkuk University
    College of Veterinary Medicine, Konkuk University)

Abstract

Deposition of α-synuclein aggregates occurs widely in the central and peripheral nervous systems in Parkinson’s disease (PD). Although recent evidence has suggested that cell-to-cell transmission of α-synuclein aggregates is associated with the progression of PD, the mechanism by which α-synuclein aggregates spread remains undefined. Here, we show that α-synuclein aggregates are transmitted from cell to cell through a cycle involving uptake of external aggregates, co-aggregation with endogenous α-synuclein and exocytosis of the co-aggregates. Moreover, we find that glucocerebrosidase depletion, which has previously been strongly associated with PD and increased cognitive impairment, promotes propagation of α-synuclein aggregates. These studies define how α-synuclein aggregates spread among neuronal cells and may provide an explanation for how glucocerebrosidase mutations increase the risk of developing PD and other synucleinopathies.

Suggested Citation

  • Eun-Jin Bae & Na-Young Yang & Miyoung Song & Cheol Soon Lee & Jun Sung Lee & Byung Chul Jung & He-Jin Lee & Seokjoong Kim & Eliezer Masliah & Sergio Pablo Sardi & Seung-Jae Lee, 2014. "Glucocerebrosidase depletion enhances cell-to-cell transmission of α-synuclein," Nature Communications, Nature, vol. 5(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms5755
    DOI: 10.1038/ncomms5755
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    Cited by:

    1. Lynne Krohn & Karl Heilbron & Cornelis Blauwendraat & Regina H. Reynolds & Eric Yu & Konstantin Senkevich & Uladzislau Rudakou & Mehrdad A. Estiar & Emil K. Gustavsson & Kajsa Brolin & Jennifer A. Rus, 2022. "Genome-wide association study of REM sleep behavior disorder identifies polygenic risk and brain expression effects," Nature Communications, Nature, vol. 13(1), pages 1-16, December.

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