Synapsin Condensates Recruit alpha-Synuclein

2021 | journal article; research paper. A publication with affiliation to the University of Göttingen.

Jump to:Cite & Linked | Documents & Media | Details | Version history

Cite this publication

​Hoffmann, C., Sansevrino, R., Morabito, G., Logan, C., Vabulas, R M., Ulusoy, A., Ganzella, M. ... Milovanovic, D. (2021). ​Synapsin Condensates Recruit alpha-Synuclein. Journal of Molecular Biology433(12), Article 166961​. ​doi: https://doi.org/10.1016/j.jmb.2021.166961 

Documents & Media

License

Published Version

Attribution 4.0 CC BY 4.0

Details

Authors
Hoffmann, Christian; Sansevrino, Roberto; Morabito, Giuseppe; Logan, Chinyere; Vabulas, R Martin; Ulusoy, Ayse; Ganzella, Marcelo; Milovanovic, Dragomir
Abstract
Neurotransmission relies on the tight spatial and temporal regulation of the synaptic vesicle (SV) cycle. Nerve terminals contain hundreds of SVs that form tight clusters. These clusters represent a distinct liquid phase in which one component of the phase are SVs and the other synapsin 1, a highly abundant synaptic protein. Another major family of disordered proteins at the presynapse includes synucleins, most notably α-synuclein. The precise physiological role of α-synuclein in synaptic physiology remains elusive, albeit its role has been implicated in nearly all steps of the SV cycle. To determine the effect of α-synuclein on the synapsin phase, we employ the reconstitution approach using natively purified SVs from rat brains and the heterologous cell system to generate synapsin condensates. We demonstrate that synapsin condensates recruit α-synuclein, and while enriched into these synapsin condensates, α-synuclein still maintains its high mobility. The presence of SVs enhances the rate of synapsin/α-synuclein condensation, suggesting that SVs act as catalyzers for the formation of synapsin condensates. Notably, at physiological salt and protein concentrations, α-synuclein alone is not able to cluster isolated SVs. Excess of α-synuclein disrupts the kinetics of synapsin/SV condensate formation, indicating that the molar ratio between synapsin and α-synuclein is important in assembling the functional condensates of SVs. Understanding the molecular mechanism of α-synuclein interactions at the nerve terminals is crucial for clarifying the pathogenesis of synucleinopathies, where α-synuclein, synaptic proteins and lipid organelles all accumulate as insoluble intracellular inclusions.
Issue Date
2021
Journal
Journal of Molecular Biology 
Project
SFB 1286: Quantitative Synaptologie 
SFB 1286 | A08: Die Rolle post-translational modifizierter Proteine in der synaptischen Übertragung 
Organization
Max-Planck-Institut für biophysikalische Chemie 
Working Group
RG R. Jahn (Laboratory of Neurobiology) 
External URL
https://sfb1286.uni-goettingen.de/literature/publications/116
ISSN
0022-2836
eISSN
1089-8638
Language
English

Reference

Citations


Social Media