In vitro α-synuclein neurotoxicity and spreading among neurons and astrocytes using Lewy body extracts from Parkinson disease brains

Abstract Synucleinopathies are a group of diseases characterized by the presence of intracellular protein aggregates containing α-synuclein (α-syn). While α-syn aggregates have been shown to induce multimodal cellular dysfunctions, uptake and transport mechanisms remain unclear. Using high-content i...

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Bibliographic Details
Published in:Neurobiology of disease 2017-07, Vol.103, p.101-112
Main Authors: Cavaliere, Fabio, Cerf, Loic, Dehay, Benjamin, Ramos-Gonzalez, Paula, De Giorgi, Francesca, Bourdenx, Mathieu, Bessede, Alban, Obeso, Jose A, Matute, Carlos, Ichas, François, Bezard, Erwan
Format: Article
Language:English
Subjects:
96-well plate
alpha-Synuclein - metabolism
alpha-Synuclein - toxicity
Animals
Astrocytes - drug effects
Astrocytes - metabolism
Astrocytes - pathology
Brain - drug effects
Brain - metabolism
Brain - pathology
Cells, Cultured
Female
High content imaging
High-throughput
Humans
Lewy Bodies - metabolism
Lewy Bodies - pathology
Life Sciences
Microfluidic
Neurology
Neurons - drug effects
Neurons - metabolism
Neurons - pathology
Parkinson Disease - metabolism
Parkinson Disease - pathology
Pregnancy
Rats
Rats, Sprague-Dawley
α-Synuclein
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Summary:Abstract Synucleinopathies are a group of diseases characterized by the presence of intracellular protein aggregates containing α-synuclein (α-syn). While α-syn aggregates have been shown to induce multimodal cellular dysfunctions, uptake and transport mechanisms remain unclear. Using high-content imaging on cortical neurons and astrocytes, we here define the kinetics of neuronal and astrocytic abnormalities induced by human-derived α-syn aggregates grounding the use of such system to identify and test putative therapeutic compounds. We then aimed at characterizing uptake and transport mechanisms using primary cultures of cortical neurons and astrocytes either in single well or in microfluidic chambers allowing connection between cells and cell-types. We report that astrocytes take up α-syn-aggregates far more efficiently than neurons through an endocytic event. We also highlight that active α-syn transport occurs between cells and any cell-types. Of special interest regarding the disease, we also show that uptake and spreading of α-syn from astrocytes to neurons can lead to neuronal death. Altogether, we here show that patients-derived α-synuclein aggregates, which are taken up by neurons and astrocytes, induce a differential endogenous response in the two cell types including a peculiar astrocytic toxic gain-of-function that leads to neuronal death.
ISSN:0969-9961
1095-953X
DOI:10.1016/j.nbd.2017.04.011