Two new polymorphic structures of human full-length alpha-synuclein fibrils solved by cryo-electron microscopy

Guerrero-Ferreira, Ricardo C.; Taylor, Nicholas M. I.; Arteni, Ana-Andreea; Kumari, Pratibha; Mona, Daniel; Ringler, Philippe; Britschgi, Markus; Lauer, Matthias E.; Makky, Ali; Verasdonck, Joeri; Riek, Roland; Melki, Ronald; Meier, Beat H.; Böckmann, Anja; Bousset, Luc; Stahlberg, Henning

doi:10.7554/elife.48907

Cited by 267 publications

(350 citation statements)

References 90 publications

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“…In addition, the packing of the central layer against the start of the outer layer in multiple recombinant α-synuclein structures, including the formation of a salt bridge between E46 and K80, is similar to that in the structures of MSA protofilaments. It has been suggested that the additional densities in front of the side chains of K43, K45 from one protofilament, and of K58 from the other, correspond to phosphate ions (61,64). Recombinant α-synuclein exhibits an increased propensity to aggregate upon exposure to anionic phospholipids (68,69).…”

Section: Recombinant Alpha-synucleinmentioning

confidence: 99%

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Structures of α-synuclein filaments from multiple system atrophy

Schweighauser

Shi

Tarutani

et al. 2020

Preprint

113

182

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Synucleinopathies are human neurodegenerative diseases that include multiple system atrophy (MSA), Parkinson’s disease, Parkinson’s disease dementia (PDD) and dementia with Lewy bodies (DLB) (1). Existing treatments are at best symptomatic. These diseases are characterised by the presence in brain cells of filamentous inclusions of α-synuclein, the formation of which is believed to cause disease (2, 3). However, the structures of α-synuclein filaments from human brain are not known. Here we show, using electron cryo-microscopy, that α-synuclein inclusions from MSA are made of two types of filaments, each of which consists of two different protofilaments. Non-proteinaceous molecules are present at the protofilament interfaces. By two-dimensional class averaging, we show that α-synuclein filaments from the brains of patients with MSA and DLB are different, suggesting that distinct conformers (or strains) characterise synucleinopathies. As was the case of tau assemblies (4–9), the structures of α-synuclein filaments extracted from the brains of individuals with MSA differ from those formed in vitro using recombinant proteins, with implications for understanding the mechanisms of aggregate propagation and neurodegeneration in human brain. These findings have diagnostic and potential therapeutic relevance, especially in view of the unmet clinical need to be able to image filamentous α-synuclein inclusions in human brain.

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Section: Recombinant Alpha-synucleinmentioning

confidence: 99%

“…MSA brains with those assembled in vitro from recombinant wildtype and mutant α-synucleins(60)(61)(62)(63)(64)(65)(66)(67) [Figure 3d-f; Extended Data Figure 12]. The greatest differences are in the extended sizes of the MSA protofilaments and in their asymmetrical packing.…”

mentioning

confidence: 99%

Structures of α-synuclein filaments from multiple system atrophy

Schweighauser

Shi

Tarutani

et al. 2020

Preprint

113

182

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“…Polymorphic core structures have been determined in the WT and mutant α -syn fibrils (22)(23)(24)(25)(26)(27)(28)(29)(30)(31), which are commonly composed of segment ~40-100 or smaller. Both the Cterminus and the majority of the N-terminus remain flexible, and thus are invisible in the cryo-EM structures.…”

Section: Discussionmentioning

confidence: 99%

Parkinson’s disease-related phosphorylation at Tyr39 rearranges α-synuclein amyloid fibril structure revealed by cryo-EM

Zhao

Lim

Liu

et al. 2020

Preprint

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“…One was left at 4°C; the other 6 were then shaken together. Strikingly enough, using the classical amyloid probe Thioflavin T (ThT) ( 25 ) to monitor the fibrillization ( 16,17 ), we observed a major variability in the development of the ThT signal from one tube to another (Fig. 1B).…”

mentioning

confidence: 92%

“…Strikingly, during amyloid stacking α-syn can adopt several distinct structural folds resulting in the emergence of fibril polymorphs ( 11-17 ). Together with their specific fold, their supramolecular properties also get inherited and propagated as the polymorphs self-replicate by templated growth ( 18-21 ).…”

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confidence: 99%

Emergence of stealth polymorphs that escape α-synuclein amyloid monitoring, take over and acutely spread in neurons

Giorgi

Laferrière

Zinghirino

et al. 2020

Preprint

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The conformational strain diversity characterizing α-synuclein (α-syn) amyloid fibrils is possibly at the origin of the different clinical presentations of synucleinopathies. Experimentally, various α-syn fibril polymorphs have been obtained from distinct fibrillization conditions by altering the medium constituents and were selected by amyloid monitoring using the probe Thioflavin T (ThT). We report here that besides classical ThT positive products, fibrillization in saline simultaneously gives rise to competing fibril polymorphs that are invisible to ThT (stealth polymorphs), and that can take over. Due to competition, spontaneous generation of such stealth polymorphs bears on the apparent fibrillization kinetics and on the final plateau values. Their emergence has thus been ignored so far or mistaken for fibrillization inhibitions/failures. Compared to their ThT-positive counterparts, and as judged from their chemical shift resonances fingerprint, these new stealth polymorphs present a yet undescribed atomic organization and show an exacerbated propensity (approx. 20-fold) towards self-replication in cortical neurons. They also trigger a long distance synucleinopathic spread along nigro-striatal projections in vivo. In order to rapidly screen fibrillization products for the presence of such stealth polymorphs, we designed a simple multiplexed assay that can be easily and rapidly operated. This assay allows us to demonstrate the sustainability of the conformational replication of these novel and particularly invasive strains. It should also be of help to avoid erroneous upstream interpretations of fibrillization rates based on sole ThT, and to expedite further structural and functional characterization of stealth amyloid assemblies.One Sentence Summarystealth α-synuclein fibrils take over

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Two new polymorphic structures of human full-length alpha-synuclein fibrils solved by cryo-electron microscopy

Cited by 267 publications

References 90 publications

Structures of α-synuclein filaments from multiple system atrophy

Structures of α-synuclein filaments from multiple system atrophy

Parkinson’s disease-related phosphorylation at Tyr39 rearranges α-synuclein amyloid fibril structure revealed by cryo-EM

Emergence of stealth polymorphs that escape α-synuclein amyloid monitoring, take over and acutely spread in neurons

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