Alpha-synuclein from patient Lewy bodies exhibits distinct pathological activity that can be propagated in vitro

Nicholas P Marotta,Bin Zhang,Virginia M.-Y Lee,Norihito Uemura,Jahan Ara,Marshall G Lougee,John Q Trojanowski,Emily S Meymand,E James Petersson

doi:10.1186/s40478-021-01288-2

Nicholas P Marotta, Bin Zhang + Show 7 more

Open Access

https://doi.org/10.1186/s40478-021-01288-2

Copy DOI

Abstract

Lewy bodies (LBs) are complex, intracellular inclusions that are common pathological features of many neurodegenerative diseases. They consist largely of aggregated forms of the protein alpha-Synuclein (α-Syn), which misfolds to give rise to beta-sheet rich amyloid fibrils. The aggregation of monomers into fibrils occurs readily in vitro and pre-formed fibrils (PFFs) generated from recombinant α-Syn monomers are the basis of many models of LB diseases. These α-Syn PFFs recapitulate many pathological phenotypes in both cultured cells and animal models including the formation of α-Syn rich, insoluble aggregates, neuron loss, and motor deficits. However, it is not clear how closely α-Syn PFFs recapitulate the biological behavior of LB aggregates isolated directly from patients. Direct interrogation of the cellular response to LB-derived α-Syn has thus far been limited. Here we demonstrate that α-Syn aggregates derived from LB disease patients induce pathology characterized by a prevalence of large somatic inclusions that is distinct from the primarily neuritic pathology induced by α-Syn PFFs in our cultured neuron model. Moreover, these LB-derived aggregates can be amplified in vitro using recombinant α-Syn to generate aggregates that maintain the unique, somatic pathological phenotype of the original material. Amplified LB aggregates also showed greater uptake in cultured neurons and greater pathological burden and more rapid pathological spread in injected mouse brains, compared to α-Syn PFFs. Our work indicates that LB-derived α-Syn from diseased brains represents a distinct conformation species with unique biological activities that has not been previously observed in fully recombinant α-Syn aggregates and demonstrate a new strategy for improving upon α-Syn PFF models of synucleinopathies using amplified LBs.

Highlights

Lewy Bodies (LBs) are insoluble, intraneuronal protein inclusions first characterized over 100 years ago that have long been considered the pathological hallmarks of Parkinson’s Disease (PD) [1, 2] as well as prominentMarotta et al Acta Neuropathologica Communications (2021) 9:188 maintenance, recycling, and release [6]
We found that the total pathology induced by passage 1 (P1) samples was less than the same dose of pre-formed fibrils (PFFs) (Fig. 3e) while all Lewy bodies (LBs)-P1 samples showed a high percentage of total phosphorylation of α-Syn at Serine 129 (Pα-Syn) contained in somatic inclusions, as defined by the same size, shape, and DAPI/MAP2 positivity filters used for the original LB samples (Fig. 3f )
We have found that LB α-Syn extracted from the brains of patients diagnosed with Alzheimer’s Disease (AD) or Parkinson’s Disease Dementia (PDD) are both pathologically active in cultured mouse neurons and consistently induced a unique pathological phenotype (Fig. 2a)

Summary

Introduction

Lewy Bodies (LBs) are insoluble, intraneuronal protein inclusions first characterized over 100 years ago that have long been considered the pathological hallmarks of Parkinson’s Disease (PD) [1, 2] as well as prominentMarotta et al Acta Neuropathologica Communications (2021) 9:188 maintenance, recycling, and release [6]. Lewy Bodies (LBs) are insoluble, intraneuronal protein inclusions first characterized over 100 years ago that have long been considered the pathological hallmarks of Parkinson’s Disease (PD) [1, 2] as well as prominent. Monomeric α-Syn can undergo spontaneous aggregation to form beta-sheet-rich amyloid fibrils and it is this fibrillar form that is a key component of LBs, Lewy neurites (LNs) as well as inclusions in other synucleinopathies such as glial cytoplasmic inclusions (GCI) in Multiple System Atrophy (MSA) [5, 9]. Monomeric α-Syn readily undergoes aggregation in vitro to form amyloid fibrils that appear to resemble those isolated from LBs [11], and these pre-formed fibrils (PFFs) are the basis of many of the models used to study LB diseases. Α-Syn containing LBs can be isolated from pathological inclusions from patient brains using detergent-dependent, sequential extraction, but contaminant proteins make biochemical characterization of aggregates challenging. Injections of mice or primates with GCI or LB extracts have shown inclusion formation but they were often limited by low α-Syn concentrations in extracts [16, 17]

Methods

Results

Conclusion