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Prodromal sensory neuropathy in <i>Pink1</i> <i> <sup>−/−</sup> </i> <i>SNCA</i> <i> <sup>A53T</sup> </i> double mutant Parkinson mice

Lucie Valek, Bao Tran, Annett Wilken‐Schmitz, Sandra Trautmann, Juliana Heidler, Tobias Schmid, Bernhard Brüne, Dominique Thomas, Thomas Deller, Gerd Geißlinger, Georg Auburger, Irmgard Tegeder

2021Neuropathology and Applied Neurobiology25 citationsDOIOpen Access PDF

Abstract

Abstract Aims Parkinson's disease (PD) is frequently associated with a prodromal sensory neuropathy manifesting with sensory loss and chronic pain. We have recently shown that PD‐associated sensory neuropathy in patients is associated with high levels of glucosylceramides. Here, we assessed the underlying pathology and mechanisms in Pink1 −/− SNCA A53T double mutant mice. Methods We studied nociceptive and olfactory behaviour and the neuropathology of dorsal root ganglia (DRGs), including ultrastructure, mitochondrial respiration, transcriptomes, outgrowth and calcium currents of primary neurons, and tissue ceramides and sphingolipids before the onset of a PD‐like disease that spontaneously develops in Pink1 −/− SNCA A53T double mutant mice beyond 15 months of age. Results Similar to PD patients, Pink1 −/− SNCA A53T mice developed a progressive prodromal sensory neuropathy with a loss of thermal sensitivity starting as early as 4 months of age. In analogy to human plasma, lipid analyses revealed an accumulation of glucosylceramides (GlcCer) in the DRGs and sciatic nerves, which was associated with pathological mitochondria, impairment of mitochondrial respiration, and deregulation of transient receptor potential channels (TRPV and TRPA) at mRNA, protein and functional levels in DRGs. Direct exposure of DRG neurons to GlcCer caused transient hyperexcitability, followed by a premature decline of the viability of sensory neurons cultures upon repeated GlcCer application. Conclusions The results suggest that pathological GlcCer contribute to prodromal sensory disease in PD mice via mitochondrial damage and calcium channel hyperexcitability. GlcCer‐associated sensory neuron pathology might be amenable to GlcCer lowering therapeutic strategies.

Topics & Concepts

NeuroscienceSensory systemTransient receptor potential channelInternal medicineBiologyMedicineEndocrinologyPathologyReceptorLysosomal Storage Disorders ResearchSphingolipid Metabolism and SignalingGlycogen Storage Diseases and Myoclonus
Prodromal sensory neuropathy in <i>Pink1</i> <i> <sup>−/−</sup> </i> <i>SNCA</i> <i> <sup>A53T</sup> </i> double mutant Parkinson mice | Litcius