EndophilinA-dependent coupling between activity-induced calcium influx and synaptic autophagy is disrupted by a Parkinson-risk mutation

Neuronal activity causes use-dependent decline in protein function. However, it is unclear how this is coupled to local quality control mechanisms. We show in Drosophila that the endocytic protein Endophilin-A (EndoA) connects activity-induced calcium influx to synaptic autophagy and neuronal surviv...

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Autores principales: Bademosi, Adekunle T., Decet, Marianna, Kuenen, Sabine, Calatayud, Carles, Swerts, Jef, Gallego, Sandra F., Schoovaerts, Nils, Karamanou, Spyridoula, Louros, Nikolaos, Martin, Ella, Sibarita, Jean-Baptiste, Vints, Katlijn, Gounko, Natalia V., Meunier, Frédéric A., Economou, Anastassios, Versées, Wim, Rousseau, Frederic, Schymkowitz, Joost, Soukup, Sandra-F., Verstreken, Patrik
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10166451/
https://www.ncbi.nlm.nih.gov/pubmed/36827984
http://dx.doi.org/10.1016/j.neuron.2023.02.001
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author Bademosi, Adekunle T.
Decet, Marianna
Kuenen, Sabine
Calatayud, Carles
Swerts, Jef
Gallego, Sandra F.
Schoovaerts, Nils
Karamanou, Spyridoula
Louros, Nikolaos
Martin, Ella
Sibarita, Jean-Baptiste
Vints, Katlijn
Gounko, Natalia V.
Meunier, Frédéric A.
Economou, Anastassios
Versées, Wim
Rousseau, Frederic
Schymkowitz, Joost
Soukup, Sandra-F.
Verstreken, Patrik
author_facet Bademosi, Adekunle T.
Decet, Marianna
Kuenen, Sabine
Calatayud, Carles
Swerts, Jef
Gallego, Sandra F.
Schoovaerts, Nils
Karamanou, Spyridoula
Louros, Nikolaos
Martin, Ella
Sibarita, Jean-Baptiste
Vints, Katlijn
Gounko, Natalia V.
Meunier, Frédéric A.
Economou, Anastassios
Versées, Wim
Rousseau, Frederic
Schymkowitz, Joost
Soukup, Sandra-F.
Verstreken, Patrik
author_sort Bademosi, Adekunle T.
collection PubMed
description Neuronal activity causes use-dependent decline in protein function. However, it is unclear how this is coupled to local quality control mechanisms. We show in Drosophila that the endocytic protein Endophilin-A (EndoA) connects activity-induced calcium influx to synaptic autophagy and neuronal survival in a Parkinson disease-relevant fashion. Mutations in the disordered loop, including a Parkinson disease-risk mutation, render EndoA insensitive to neuronal stimulation and affect protein dynamics: when EndoA is more flexible, its mobility in membrane nanodomains increases, making it available for autophagosome formation. Conversely, when EndoA is more rigid, its mobility reduces, blocking stimulation-induced autophagy. Balanced stimulation-induced autophagy is required for dopagminergic neuron survival, and a variant in the human ENDOA1 disordered loop conferring risk to Parkinson disease also blocks nanodomain protein mobility and autophagy both in vivo and in human-induced dopaminergic neurons. Thus, we reveal a mechanism that neurons use to connect neuronal activity to local autophagy and that is critical for neuronal survival.
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spelling pubmed-101664512023-05-09 EndophilinA-dependent coupling between activity-induced calcium influx and synaptic autophagy is disrupted by a Parkinson-risk mutation Bademosi, Adekunle T. Decet, Marianna Kuenen, Sabine Calatayud, Carles Swerts, Jef Gallego, Sandra F. Schoovaerts, Nils Karamanou, Spyridoula Louros, Nikolaos Martin, Ella Sibarita, Jean-Baptiste Vints, Katlijn Gounko, Natalia V. Meunier, Frédéric A. Economou, Anastassios Versées, Wim Rousseau, Frederic Schymkowitz, Joost Soukup, Sandra-F. Verstreken, Patrik Neuron Article Neuronal activity causes use-dependent decline in protein function. However, it is unclear how this is coupled to local quality control mechanisms. We show in Drosophila that the endocytic protein Endophilin-A (EndoA) connects activity-induced calcium influx to synaptic autophagy and neuronal survival in a Parkinson disease-relevant fashion. Mutations in the disordered loop, including a Parkinson disease-risk mutation, render EndoA insensitive to neuronal stimulation and affect protein dynamics: when EndoA is more flexible, its mobility in membrane nanodomains increases, making it available for autophagosome formation. Conversely, when EndoA is more rigid, its mobility reduces, blocking stimulation-induced autophagy. Balanced stimulation-induced autophagy is required for dopagminergic neuron survival, and a variant in the human ENDOA1 disordered loop conferring risk to Parkinson disease also blocks nanodomain protein mobility and autophagy both in vivo and in human-induced dopaminergic neurons. Thus, we reveal a mechanism that neurons use to connect neuronal activity to local autophagy and that is critical for neuronal survival. Cell Press 2023-05-03 /pmc/articles/PMC10166451/ /pubmed/36827984 http://dx.doi.org/10.1016/j.neuron.2023.02.001 Text en © 2023 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Bademosi, Adekunle T.
Decet, Marianna
Kuenen, Sabine
Calatayud, Carles
Swerts, Jef
Gallego, Sandra F.
Schoovaerts, Nils
Karamanou, Spyridoula
Louros, Nikolaos
Martin, Ella
Sibarita, Jean-Baptiste
Vints, Katlijn
Gounko, Natalia V.
Meunier, Frédéric A.
Economou, Anastassios
Versées, Wim
Rousseau, Frederic
Schymkowitz, Joost
Soukup, Sandra-F.
Verstreken, Patrik
EndophilinA-dependent coupling between activity-induced calcium influx and synaptic autophagy is disrupted by a Parkinson-risk mutation
title EndophilinA-dependent coupling between activity-induced calcium influx and synaptic autophagy is disrupted by a Parkinson-risk mutation
title_full EndophilinA-dependent coupling between activity-induced calcium influx and synaptic autophagy is disrupted by a Parkinson-risk mutation
title_fullStr EndophilinA-dependent coupling between activity-induced calcium influx and synaptic autophagy is disrupted by a Parkinson-risk mutation
title_full_unstemmed EndophilinA-dependent coupling between activity-induced calcium influx and synaptic autophagy is disrupted by a Parkinson-risk mutation
title_short EndophilinA-dependent coupling between activity-induced calcium influx and synaptic autophagy is disrupted by a Parkinson-risk mutation
title_sort endophilina-dependent coupling between activity-induced calcium influx and synaptic autophagy is disrupted by a parkinson-risk mutation
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10166451/
https://www.ncbi.nlm.nih.gov/pubmed/36827984
http://dx.doi.org/10.1016/j.neuron.2023.02.001
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