α-Synuclein propagates from mouse brain to grafted dopaminergic neurons and seeds aggregation in cultured human cells
Christian Hansen, … , Jia-Yi Li, Patrik Brundin
Christian Hansen, … , Jia-Yi Li, Patrik Brundin
Published January 18, 2011
Citation Information: J Clin Invest. 2011;121(2):715-725. https://doi.org/10.1172/JCI43366.
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α-Synuclein propagates from mouse brain to grafted dopaminergic neurons and seeds aggregation in cultured human cells

Abstract

Post-mortem analyses of brains from patients with Parkinson disease who received fetal mesencephalic transplants show that α-synuclein–containing (α-syn–containing) Lewy bodies gradually appear in grafted neurons. Here, we explored whether intercellular transfer of α-syn from host to graft, followed by seeding of α-syn aggregation in recipient neurons, can contribute to this phenomenon. We assessed α-syn cell-to-cell transfer using microscopy, flow cytometry, and high-content screening in several coculture model systems. Coculturing cells engineered to express either GFP– or DsRed-tagged α-syn resulted in a gradual increase in double-labeled cells. Importantly, α-syn–GFP derived from 1 neuroblastoma cell line localized to red fluorescent aggregates in other cells expressing DsRed–α-syn, suggesting a seeding effect of transmitted α-syn. Extracellular α-syn was taken up by cells through endocytosis and interacted with intracellular α-syn. Next, following intracortical injection of recombinant α-syn in rats, we found neuronal uptake was attenuated by coinjection of an endocytosis inhibitor. Finally, we demonstrated in vivo transfer of α-syn between host cells and grafted dopaminergic neurons in mice overexpressing human α-syn. In summary, intercellularly transferred α-syn interacts with cytoplasmic α-syn and can propagate α-syn pathology. These results suggest that α-syn propagation is a key element in the progression of Parkinson disease pathology.

Authors

Christian Hansen, Elodie Angot, Ann-Louise Bergström, Jennifer A. Steiner, Laura Pieri, Gesine Paul, Tiago F. Outeiro, Ronald Melki, Pekka Kallunki, Karina Fog, Jia-Yi Li, Patrik Brundin

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Figure 5

In vivo entry of recombinant α-syn proteins into neuronal cells.

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In vivo entry of recombinant α-syn proteins into neuronal cells. (A) 3 h...
(A) 3 hours after addition of 1 μM of Alexa Fluor 488–labeled α-syn proteins in the culture medium, HEK cells expressing α-syn–DsRed have taken up tagged α-syn monomers (left), oligomers (middle), and fibrils (right). Original magnification, ×40. (B) Cortical MAP2-positive neurons internalized Alexa Fluor 488–labeled α-syn monomers (upper panels), oligomers (middle panels), and fibrils (lower panels) after injection into the mouse brain. The left column shows the homogenous distribution of Alexa Fluor 488–labeled (green) monomers throughout the cell body, whereas oligomers and fibrils display a more punctate pattern. The middle column corresponds to the MAP2 staining (red) of recipient neurons and the right column to the merge of left and middle columns. Scale bars: 5 μm.