Litcius/Paper detail

VPS13C regulates phospho-Rab10-mediated lysosomal function in human dopaminergic neurons

Leonie F. Schröder, Wesley Peng, Ge Gao, Yvette C. Wong, Michael Schwake, Dimitri Krainc

2024The Journal of Cell Biology28 citationsDOIOpen Access PDF

Abstract

Loss-of-function mutations in VPS13C are linked to early-onset Parkinson's disease (PD). While VPS13C has been previously studied in non-neuronal cells, the neuronal role of VPS13C in disease-relevant human dopaminergic neurons has not been elucidated. Using live-cell microscopy, we investigated the role of VPS13C in regulating lysosomal dynamics and function in human iPSC-derived dopaminergic neurons. Loss of VPS13C in dopaminergic neurons disrupts lysosomal morphology and dynamics with increased inter-lysosomal contacts, leading to impaired lysosomal motility and cellular distribution, as well as defective lysosomal hydrolytic activity and acidification. We identified Rab10 as a phospho-dependent interactor of VPS13C on lysosomes and observed a decreased phospho-Rab10-mediated lysosomal stress response upon loss of VPS13C. These findings highlight an important role of VPS13C in regulating lysosomal homeostasis in human dopaminergic neurons and suggest that disruptions in Rab10-mediated lysosomal stress response contribute to disease pathogenesis in VPS13C-linked PD.

Topics & Concepts

DopaminergicCell biologyBiologyNeuroscienceMotilityLysosomeParkinson's diseaseFunction (biology)DopamineLoss functionDiseasePhenotypeBiochemistryInternal medicineGeneMedicineEnzymeCellular transport and secretionLysosomal Storage Disorders ResearchParkinson's Disease Mechanisms and Treatments