Cell Reports
Volume 18, Issue 1, 3 January 2017, Pages 161-173
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Article
Synucleins Have Multiple Effects on Presynaptic Architecture

https://doi.org/10.1016/j.celrep.2016.12.023Get rights and content
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Highlights

  • Synucleins are determinants of synapse size

  • Connectors and tethers are altered in αβγ-synuclein−/−

  • PARK mutations primarily affect tethering of synaptic vesicles

  • Phospho-amphiphysin-2 may constitute connectors linking synaptic vesicles

Summary

Synucleins (α, β, γ-synuclein) are a family of abundant presynaptic proteins. α-Synuclein is causally linked to the pathogenesis of Parkinson’s disease (PD). In an effort to define their physiological and pathological function or functions, we investigated the effects of deleting synucleins and overexpressing α-synuclein PD mutations, in mice, on synapse architecture using electron microscopy (EM) and cryoelectron tomography (cryo-ET). We show that synucleins are regulators of presynapse size and synaptic vesicle (SV) pool organization. Using cryo-ET, we observed that deletion of synucleins increases SV tethering to the active zone but decreases the inter-linking of SVs by short connectors. These ultrastructural changes were correlated with discrete protein phosphorylation changes in αβγ-synuclein−/− neurons. We also determined that α-synuclein PD mutants (PARK1/hA30P and PARK4/hα-syn) primarily affected presynaptic cytomatrix proximal to the active zone, congruent with previous findings that these PD mutations decrease neurotransmission. Collectively, our results suggest that synucleins are important orchestrators of presynaptic terminal topography.

Keywords

presynaptic
endocytosis
synaptic vesicle
tethering
reserve pool
tomography
Parkinson’s disease
amphiphysin
calcineurin
knockout mouse

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