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Nanobodies raised against monomeric ɑ-synuclein inhibit fibril formation and destabilize toxic oligomeric species

Accepted version
Peer-reviewed

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Authors

Iljina, M 
Hong, L 
Horrocks, Mathew 
Ludtmann, MH 

Abstract

Background: The aggregation of the protein ɑ-synuclein (ɑS) underlies a range of increasingly common neurodegenerative disorders including Parkinson’s disease. One widely explored therapeutic strategy for these conditions is the use of antibodies to target aggregated ɑS, although a detailed molecular-level mechanism of the action of such species remains elusive. Here, we characterize ɑS aggregation in vitro in the presence of two ɑS-specific single-domain antibodies (nanobodies), NbSyn2 and NbSyn87, which bind to the highly accessible C-terminal region of ɑS.

Results: We show that both nanobodies inhibit the formation of ɑS fibrils. Furthermore, using single-molecule fluorescence techniques, we demonstrate that nanobody binding promotes a rapid conformational conversion from more stable oligomers to less stable oligomers of ɑS, leading to a dramatic reduction in oligomer-induced cellular toxicity.

Conclusions: The results indicate a novel mechanism by which diseases associated with protein aggregation can be inhibited, and suggest that NbSyn2 and NbSyn87 could have significant therapeutic potential.

Description

Keywords

protein aggregation, amyloid toxicity, neurodegeneration, aggregation inhibitors, antibody, single-molecule fluorescence

Journal Title

BMC Biology

Conference Name

Journal ISSN

1741-7007
1741-7007

Volume Title

15

Publisher

BioMed Central
Sponsorship
ECH2020 EUROPEAN RESEARCH COUNCIL (ERC) (669237)
MRC (G1002272)
Parkinson’s UK (H-0903). EDG was supported by the Medical Research Council (MRC G1002272). DK was funded by ERC (669237) and the Royal Society.