Cells (Jul 2022)

β-Glucocerebrosidase Deficiency Activates an Aberrant Lysosome-Plasma Membrane Axis Responsible for the Onset of Neurodegeneration

  • Giulia Lunghi,
  • Emma Veronica Carsana,
  • Nicoletta Loberto,
  • Laura Cioccarelli,
  • Simona Prioni,
  • Laura Mauri,
  • Rosaria Bassi,
  • Stefano Duga,
  • Letizia Straniero,
  • Rosanna Asselta,
  • Giulia Soldà,
  • Alessio Di Fonzo,
  • Emanuele Frattini,
  • Manuela Magni,
  • Nara Liessi,
  • Andrea Armirotti,
  • Elena Ferrari,
  • Maura Samarani,
  • Massimo Aureli

DOI
https://doi.org/10.3390/cells11152343
Journal volume & issue
Vol. 11, no. 15
p. 2343

Abstract

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β-glucocerebrosidase is a lysosomal hydrolase involved in the catabolism of the sphingolipid glucosylceramide. Biallelic loss of function mutations in this enzyme are responsible for the onset of Gaucher disease, while monoallelic β-glucocerebrosidase mutations represent the first genetic risk factor for Parkinson’s disease. Despite this evidence, the molecular mechanism linking the impairment in β-glucocerebrosidase activity with the onset of neurodegeneration in still unknown. In this frame, we developed two in vitro neuronal models of β-glucocerebrosidase deficiency, represented by mouse cerebellar granule neurons and human-induced pluripotent stem cells-derived dopaminergic neurons treated with the specific β-glucocerebrosidase inhibitor conduritol B epoxide. Neurons deficient for β-glucocerebrosidase activity showed a lysosomal accumulation of glucosylceramide and the onset of neuronal damage. Moreover, we found that neurons react to the lysosomal impairment by the induction of their biogenesis and exocytosis. This latter event was responsible for glucosylceramide accumulation also at the plasma membrane level, with an alteration in lipid and protein composition of specific signaling microdomains. Collectively, our data suggest that β-glucocerebrosidase loss of function impairs the lysosomal compartment, establishing a lysosome–plasma membrane axis responsible for modifications in the plasma membrane architecture and possible alterations of intracellular signaling pathways, leading to neuronal damage.

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