PLoS Biology (Mar 2022)

A light-inducible protein clustering system for in vivo analysis of α-synuclein aggregation in Parkinson disease.

  • Morgan Bérard,
  • Razan Sheta,
  • Sarah Malvaut,
  • Raquel Rodriguez-Aller,
  • Maxime Teixeira,
  • Walid Idi,
  • Roxanne Turmel,
  • Melanie Alpaugh,
  • Marilyn Dubois,
  • Manel Dahmene,
  • Charleen Salesse,
  • Jérôme Lamontagne-Proulx,
  • Marie-Kim St-Pierre,
  • Omid Tavassoly,
  • Wen Luo,
  • Esther Del Cid-Pellitero,
  • Raza Qazi,
  • Jae-Woong Jeong,
  • Thomas M Durcan,
  • Luc Vallières,
  • Marie-Eve Tremblay,
  • Denis Soulet,
  • Martin Lévesque,
  • Francesca Cicchetti,
  • Edward A Fon,
  • Armen Saghatelyan,
  • Abid Oueslati

DOI
https://doi.org/10.1371/journal.pbio.3001578
Journal volume & issue
Vol. 20, no. 3
p. e3001578

Abstract

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Neurodegenerative disorders refer to a group of diseases commonly associated with abnormal protein accumulation and aggregation in the central nervous system. However, the exact role of protein aggregation in the pathophysiology of these disorders remains unclear. This gap in knowledge is due to the lack of experimental models that allow for the spatiotemporal control of protein aggregation, and the investigation of early dynamic events associated with inclusion formation. Here, we report on the development of a light-inducible protein aggregation (LIPA) system that enables spatiotemporal control of α-synuclein (α-syn) aggregation into insoluble deposits called Lewy bodies (LBs), the pathological hallmark of Parkinson disease (PD) and other proteinopathies. We demonstrate that LIPA-α-syn inclusions mimic key biochemical, biophysical, and ultrastructural features of authentic LBs observed in PD-diseased brains. In vivo, LIPA-α-syn aggregates compromise nigrostriatal transmission, induce neurodegeneration and PD-like motor impairments. Collectively, our findings provide a new tool for the generation, visualization, and dissection of the role of α-syn aggregation in PD.