TY  - JOUR
AU  - Brás, Inês C
AU  - Khani, Mohammad H
AU  - Vasili, Eftychia
AU  - Möbius, Wiebke
AU  - Riedel, Dietmar
AU  - Parfentev, Iwan
AU  - Gerhardt, Ellen
AU  - Fahlbusch, Christiane
AU  - Urlaub, Henning
AU  - Zweckstetter, Markus
AU  - Gollisch, Tim
AU  - Outeiro, Tiago F
TI  - Molecular Mechanisms Mediating the Transfer of Disease-Associated Proteins and Effects on Neuronal Activity.
JO  - Journal of Parkinson's Disease
VL  - 12
IS  - 8
SN  - 1877-7171
CY  - Amsterdam
PB  - IOS Press
M1  - DZNE-2022-01631
SP  - 2397 - 2422
PY  - 2022
AB  - Various cellular pathways have been implicated in the transfer of disease-related proteins between cells, contributing to disease progression and neurodegeneration. However, the overall effects of protein transfer are still unclear.Here, we performed a systematic comparison of basic molecular mechanisms involved in the release of alpha-synuclein, Tau, and huntingtin, and evaluated functional effects upon internalization by receiving cells.Evaluation of protein release to the extracellular space in a free form and in extracellular vesicles using an optimized ultracentrifugation protocol. The extracellular effects of the proteins and extracellular vesicles in primary neuronal cultures were assessed using multi-channel electrophysiological recordings combined with a customized spike sorting framework.We demonstrate cells differentially release free-forms of each protein to the extracellular space. Importantly, neuronal activity is distinctly modulated upon protein internalization in primary cortical cultures. In addition, these disease-related proteins also occur in extracellular vesicles, and are enriched in ectosomes. Internalization of ectosomes and exosomes by primary microglial or astrocytic cells elicits the production of pro-inflammatory cytokines, and modifies spontaneous electrical activity in neurons.Overall, our study demonstrates that released proteins can have detrimental effects for surrounding cells, and suggests protein release pathways may be exploited as therapeutic targets in different neurodegenerative diseases.
KW  - Humans
KW  - Parkinson Disease: metabolism
KW  - Neurons: metabolism
KW  - Exosomes: metabolism
KW  - Protein Transport
KW  - Alpha-synuclein (Other)
KW  - Tau (Other)
KW  - extracellular vesicles (Other)
KW  - huntingtin (Other)
KW  - neuronal function (Other)
LB  - PUB:(DE-HGF)16
C6  - pmid:36278361
DO  - DOI:10.3233/JPD-223516
UR  - https://pub.dzne.de/record/165354
ER  -