Phosphorylation of Parkin at serine 65 is essential for its activation in vivo

Mutations in PINK1 and Parkin result in autosomal recessive Parkinson's disease (PD). Cell culture and in vitro studies have elaborated the PINK1-dependent regulation of Parkin and defined how this dyad orchestrates the elimination of damaged mitochondria via mitophagy. PINK1 phosphorylates ubi...

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Autores principales: McWilliams, Thomas G., Barini, Erica, Pohjolan-Pirhonen, Risto, Brooks, Simon P., Singh, François, Burel, Sophie, Balk, Kristin, Kumar, Atul, Montava-Garriga, Lambert, Prescott, Alan R., Hassoun, Sidi Mohamed, Mouton-Liger, François, Ball, Graeme, Hills, Rachel, Knebel, Axel, Ulusoy, Ayse, Di Monte, Donato A., Tamjar, Jevgenia, Antico, Odetta, Fears, Kyle, Smith, Laura, Brambilla, Riccardo, Palin, Eino, Valori, Miko, Eerola-Rautio, Johanna, Tienari, Pentti, Corti, Olga, Dunnett, Stephen B., Ganley, Ian G., Suomalainen, Anu, Muqit, Miratul M. K.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society 2018
Materias:
Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6282074/
https://www.ncbi.nlm.nih.gov/pubmed/30404819
http://dx.doi.org/10.1098/rsob.180108
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author McWilliams, Thomas G.
Barini, Erica
Pohjolan-Pirhonen, Risto
Brooks, Simon P.
Singh, François
Burel, Sophie
Balk, Kristin
Kumar, Atul
Montava-Garriga, Lambert
Prescott, Alan R.
Hassoun, Sidi Mohamed
Mouton-Liger, François
Ball, Graeme
Hills, Rachel
Knebel, Axel
Ulusoy, Ayse
Di Monte, Donato A.
Tamjar, Jevgenia
Antico, Odetta
Fears, Kyle
Smith, Laura
Brambilla, Riccardo
Palin, Eino
Valori, Miko
Eerola-Rautio, Johanna
Tienari, Pentti
Corti, Olga
Dunnett, Stephen B.
Ganley, Ian G.
Suomalainen, Anu
Muqit, Miratul M. K.
author_facet McWilliams, Thomas G.
Barini, Erica
Pohjolan-Pirhonen, Risto
Brooks, Simon P.
Singh, François
Burel, Sophie
Balk, Kristin
Kumar, Atul
Montava-Garriga, Lambert
Prescott, Alan R.
Hassoun, Sidi Mohamed
Mouton-Liger, François
Ball, Graeme
Hills, Rachel
Knebel, Axel
Ulusoy, Ayse
Di Monte, Donato A.
Tamjar, Jevgenia
Antico, Odetta
Fears, Kyle
Smith, Laura
Brambilla, Riccardo
Palin, Eino
Valori, Miko
Eerola-Rautio, Johanna
Tienari, Pentti
Corti, Olga
Dunnett, Stephen B.
Ganley, Ian G.
Suomalainen, Anu
Muqit, Miratul M. K.
author_sort McWilliams, Thomas G.
collection PubMed
description Mutations in PINK1 and Parkin result in autosomal recessive Parkinson's disease (PD). Cell culture and in vitro studies have elaborated the PINK1-dependent regulation of Parkin and defined how this dyad orchestrates the elimination of damaged mitochondria via mitophagy. PINK1 phosphorylates ubiquitin at serine 65 (Ser65) and Parkin at an equivalent Ser65 residue located within its N-terminal ubiquitin-like domain, resulting in activation; however, the physiological significance of Parkin Ser65 phosphorylation in vivo in mammals remains unknown. To address this, we generated a Parkin Ser65Ala (S65A) knock-in mouse model. We observe endogenous Parkin Ser65 phosphorylation and activation in mature primary neurons following mitochondrial depolarization and reveal this is disrupted in Parkin(S65A/S65A) neurons. Phenotypically, Parkin(S65A/S65A) mice exhibit selective motor dysfunction in the absence of any overt neurodegeneration or alterations in nigrostriatal mitophagy. The clinical relevance of our findings is substantiated by the discovery of homozygous PARKIN (PARK2) p.S65N mutations in two unrelated patients with PD. Moreover, biochemical and structural analysis demonstrates that the Parkin(S65N/S65N) mutant is pathogenic and cannot be activated by PINK1. Our findings highlight the central role of Parkin Ser65 phosphorylation in health and disease.
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spelling pubmed-62820742018-12-11 Phosphorylation of Parkin at serine 65 is essential for its activation in vivo McWilliams, Thomas G. Barini, Erica Pohjolan-Pirhonen, Risto Brooks, Simon P. Singh, François Burel, Sophie Balk, Kristin Kumar, Atul Montava-Garriga, Lambert Prescott, Alan R. Hassoun, Sidi Mohamed Mouton-Liger, François Ball, Graeme Hills, Rachel Knebel, Axel Ulusoy, Ayse Di Monte, Donato A. Tamjar, Jevgenia Antico, Odetta Fears, Kyle Smith, Laura Brambilla, Riccardo Palin, Eino Valori, Miko Eerola-Rautio, Johanna Tienari, Pentti Corti, Olga Dunnett, Stephen B. Ganley, Ian G. Suomalainen, Anu Muqit, Miratul M. K. Open Biol Research Mutations in PINK1 and Parkin result in autosomal recessive Parkinson's disease (PD). Cell culture and in vitro studies have elaborated the PINK1-dependent regulation of Parkin and defined how this dyad orchestrates the elimination of damaged mitochondria via mitophagy. PINK1 phosphorylates ubiquitin at serine 65 (Ser65) and Parkin at an equivalent Ser65 residue located within its N-terminal ubiquitin-like domain, resulting in activation; however, the physiological significance of Parkin Ser65 phosphorylation in vivo in mammals remains unknown. To address this, we generated a Parkin Ser65Ala (S65A) knock-in mouse model. We observe endogenous Parkin Ser65 phosphorylation and activation in mature primary neurons following mitochondrial depolarization and reveal this is disrupted in Parkin(S65A/S65A) neurons. Phenotypically, Parkin(S65A/S65A) mice exhibit selective motor dysfunction in the absence of any overt neurodegeneration or alterations in nigrostriatal mitophagy. The clinical relevance of our findings is substantiated by the discovery of homozygous PARKIN (PARK2) p.S65N mutations in two unrelated patients with PD. Moreover, biochemical and structural analysis demonstrates that the Parkin(S65N/S65N) mutant is pathogenic and cannot be activated by PINK1. Our findings highlight the central role of Parkin Ser65 phosphorylation in health and disease. The Royal Society 2018-11-07 /pmc/articles/PMC6282074/ /pubmed/30404819 http://dx.doi.org/10.1098/rsob.180108 Text en © 2018 The Authors. http://creativecommons.org/licenses/by/4.0/ Published by the Royal Society under the terms of the Creative Commons Attribution License http://creativecommons.org/licenses/by/4.0/, which permits unrestricted use, provided the original author and source are credited.
spellingShingle Research
McWilliams, Thomas G.
Barini, Erica
Pohjolan-Pirhonen, Risto
Brooks, Simon P.
Singh, François
Burel, Sophie
Balk, Kristin
Kumar, Atul
Montava-Garriga, Lambert
Prescott, Alan R.
Hassoun, Sidi Mohamed
Mouton-Liger, François
Ball, Graeme
Hills, Rachel
Knebel, Axel
Ulusoy, Ayse
Di Monte, Donato A.
Tamjar, Jevgenia
Antico, Odetta
Fears, Kyle
Smith, Laura
Brambilla, Riccardo
Palin, Eino
Valori, Miko
Eerola-Rautio, Johanna
Tienari, Pentti
Corti, Olga
Dunnett, Stephen B.
Ganley, Ian G.
Suomalainen, Anu
Muqit, Miratul M. K.
Phosphorylation of Parkin at serine 65 is essential for its activation in vivo
title Phosphorylation of Parkin at serine 65 is essential for its activation in vivo
title_full Phosphorylation of Parkin at serine 65 is essential for its activation in vivo
title_fullStr Phosphorylation of Parkin at serine 65 is essential for its activation in vivo
title_full_unstemmed Phosphorylation of Parkin at serine 65 is essential for its activation in vivo
title_short Phosphorylation of Parkin at serine 65 is essential for its activation in vivo
title_sort phosphorylation of parkin at serine 65 is essential for its activation in vivo
topic Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6282074/
https://www.ncbi.nlm.nih.gov/pubmed/30404819
http://dx.doi.org/10.1098/rsob.180108
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