Linking acetylated α-Tubulin redistribution to α-Synuclein pathology in brain of Parkinson's disease patients.
Samanta MazzettiFederica GiampietroAlessandra Maria CalogeroHuseyin Berkcan IsilganGloria GagliardiChiara RolandoFrancesca CanteleMiriam AscagniManuela BramerioGiorgio GiacconeIoannis Ugo IsaiasGianni PezzoliGraziella CappellettiPublished in: NPJ Parkinson's disease (2024)
Highly specialized microtubules in neurons are crucial to both health and disease of the nervous system, and their properties are strictly regulated by different post-translational modifications, including α-Tubulin acetylation. An imbalance in the levels of acetylated α-Tubulin has been reported in experimental models of Parkinson's disease (PD) whereas pharmacological or genetic modulation that leads to increased acetylated α-Tubulin successfully rescues axonal transport defects and inhibits α-Synuclein aggregation. However, the role of acetylation of α-Tubulin in the human nervous system is largely unknown as most studies are based on in vitro evidence. To capture the complexity of the pathological processes in vivo, we analysed post-mortem human brain of PD patients and control subjects. In the brain of PD patients at Braak stage 6, we found a redistribution of acetylated α-Tubulin, which accumulates in the neuronal cell bodies in subcortical structures but not in the cerebral cortex, and decreases in the axonal compartment, both in putamen bundles of fibres and in sudomotor fibres. High-resolution and 3D reconstruction analysis linked acetylated α-Tubulin redistribution to α-Synuclein oligomerization and to phosphorylated Ser 129 α-Synuclein, leading us to propose a model for Lewy body (LB) formation. Finally, in post-mortem human brain, we observed threadlike structures, resembling tunnelling nanotubes that contain α-Synuclein oligomers and are associated with acetylated α-Tubulin enriched neurons. In conclusion, we support the role of acetylated α-Tubulin in PD pathogenesis and LB formation.
Keyphrases
- high resolution
- end stage renal disease
- ejection fraction
- chronic kidney disease
- spinal cord injury
- prognostic factors
- public health
- endothelial cells
- stem cells
- white matter
- spinal cord
- resting state
- mental health
- multiple sclerosis
- single cell
- genome wide
- patient reported outcomes
- functional connectivity
- bone marrow
- cell therapy
- patient reported