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Pathological α-syn aggregation is mediated by glycosphingolipid chain length and the physiological state of α-syn in vivo

Kristina Fredriksen, Stefanos Aivazidis, Karan Sharma, Kevin Burbidge, Caleb Pitcairn, Friederike Zunke, Eilrayna Gelyana, Joseph R. Mazzulli

2021Proceedings of the National Academy of Sciences50 citationsDOIOpen Access PDF

Abstract

mutations exhibit neurodegeneration, and the factors that influence neurological phenotypes are unknown. We find that α-synuclein (α-syn) neuropathology induced by GCase depletion depends on neuronal maturity, the physiological state of α-syn, and specific accumulation of long-chain glycosphingolipid (GSL) GCase substrates. Reduced GCase activity does not initiate α-syn aggregation in neonatal mice or immature human midbrain cultures; however, adult mice or mature midbrain cultures that express physiological α-syn oligomers are aggregation prone. Accumulation of long-chain GSLs (≥C22), but not short-chain species, induced α-syn pathology and neurological dysfunction. Selective reduction of long-chain GSLs ameliorated α-syn pathology through lysosomal cathepsins. We identify specific requirements that dictate synuclein pathology in GD models, providing possible explanations for the phenotypic variability in subjects with GCase deficiency.

Topics & Concepts

GlucocerebrosidaseGlycosphingolipidSynucleinopathiesNeurodegenerationBiologyNeuropathologyPhenotypeCell biologyNeuroscienceAlpha-synucleinPathologyDiseaseParkinson's diseaseGeneticsMedicineGeneLysosomal Storage Disorders ResearchParkinson's Disease Mechanisms and TreatmentsCellular transport and secretion
Pathological α-syn aggregation is mediated by glycosphingolipid chain length and the physiological state of α-syn in vivo | Litcius