Litcius/Paper detail

Neuronal identity defines α-synuclein and tau toxicity

Roman Praschberger, Sabine Kuenen, Nils Schoovaerts, Natalie Kaempf, Jeevanjot Singh, Jasper Janssens, Jef Swerts, Eliana Nachman, Carles Calatayud, Stein Aerts, Suresh Poovathingal, Patrik Verstreken

2023Neuron57 citationsDOIOpen Access PDF

Abstract

Pathogenic α-synuclein and tau are critical drivers of neurodegeneration, and their mutations cause neuronal loss in patients. Whether the underlying preferential neuronal vulnerability is a cell-type-intrinsic property or a consequence of increased expression levels remains elusive. Here, we explore cell-type-specific α-synuclein and tau expression in human brain datasets and use deep phenotyping as well as brain-wide single-cell RNA sequencing of >200 live neuron types in fruit flies to determine which cellular environments react most to α-synuclein or tau toxicity. We detect phenotypic and transcriptomic evidence of differential neuronal vulnerability independent of α-synuclein or tau expression levels. Comparing vulnerable with resilient neurons in Drosophila enabled us to predict numerous human neuron subtypes with increased intrinsic susceptibility to pathogenic α-synuclein or tau. By uncovering synapse- and Ca 2+ homeostasis-related genes as tau toxicity modifiers, our work paves the way to leverage neuronal identity to uncover modifiers of neurodegeneration-associated toxic proteins.

Topics & Concepts

ToxicityNeuroscienceIdentity (music)PsychologyMedicineInternal medicinePhilosophyAestheticsParkinson's Disease Mechanisms and TreatmentsNeuroscience and Neuropharmacology ResearchAlzheimer's disease research and treatments
Neuronal identity defines α-synuclein and tau toxicity | Litcius