Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration

Miquel, Ernesto - Villarino, Rosalía - Martínez-Palma, Laura - Cassina, Adriana - Cassina, Patricia

Resumen:

Amyotrophic lateral sclerosis (ALS) is characterized by progressive motor neuron (MN) degeneration. Various studies using cellular and animal models of ALS indicate that there is a complex interplay between MN and neighboring non-neuronal cells, such as astrocytes, resulting in noncell autonomous neurodegeneration. Astrocytes in ALS exhibit a lower ability to support MN survival than nondisease-associated ones, which is strongly correlated with low-mitochondrial respiratory activity. Indeed, pharmacological inhibition of pyruvate dehydrogenase kinase (PDK) led to an increase in the mitochondrial oxidative phosphorylation pathway as the primary source of cell energy in SOD1G93A astrocytes and restored the survival of MN. Among the four PDK isoforms, PDK2 is ubiquitously expressed in astrocytes and presents low expression levels in neurons. Herein, we hypothesize whether selective knockdown of PDK2 in astrocytes may increase mitochondrial activity and, in turn, reduce SOD1G93A-associated toxicity. To assess this, cultured neonatal SOD1G93A rat astrocytes were incubated with specific PDK2 siRNA. This treatment resulted in a reduction of the enzyme expression with a concomitant decrease in the phosphorylation rate of the pyruvate dehydrogenase complex. In addition, PDK2-silenced SOD1G93A astrocytes exhibited restored mitochondrial bioenergetics parameters, adopting a more complex mitochondrial network. This treatment also decreased lipid droplet content in SOD1G93A astrocytes, suggesting a switch in energetic metabolism. Significantly, PDK2 knockdown increased the ability of SOD1G93A astrocytes to support MN survival, further supporting the major role of astrocyte mitochondrial respiratory activity in astrocyte-MN interactions. These results suggest that PDK2 silencing could be a cell-specific therapeutic tool to slow the progression of ALS.


Detalles Bibliográficos
2024
Astrocytes
Neurodegenerative diseases
Metabolic interactions with neurons
ASTROCITOS
ENFERMEDADES NEURODEGENERATIVAS
NEURONAS
Inglés
Universidad de la República
COLIBRI
https://hdl.handle.net/20.500.12008/43355
Acceso abierto
Licencia Creative Commons Atribución (CC - By 4.0)
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author Miquel, Ernesto
author2 Villarino, Rosalía
Martínez-Palma, Laura
Cassina, Adriana
Cassina, Patricia
author2_role author
author
author
author
author_facet Miquel, Ernesto
Villarino, Rosalía
Martínez-Palma, Laura
Cassina, Adriana
Cassina, Patricia
author_role author
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collection COLIBRI
dc.contributor.filiacion.none.fl_str_mv Miquel Ernesto, Universidad de la República (Uruguay). Facultad de Medicina
Villarino Rosalía, Universidad de la República (Uruguay). Facultad de Medicina
Martínez-Palma Laura, Universidad de la República (Uruguay). Facultad de Medicina
Cassina Adriana, Universidad de la República (Uruguay). Facultad de Medicina
Cassina Patricia, Universidad de la República (Uruguay). Facultad de Medicina
dc.creator.none.fl_str_mv Miquel, Ernesto
Villarino, Rosalía
Martínez-Palma, Laura
Cassina, Adriana
Cassina, Patricia
dc.date.accessioned.none.fl_str_mv 2024-04-05T17:59:05Z
dc.date.available.none.fl_str_mv 2024-04-05T17:59:05Z
dc.date.issued.none.fl_str_mv 2024
dc.description.abstract.none.fl_txt_mv Amyotrophic lateral sclerosis (ALS) is characterized by progressive motor neuron (MN) degeneration. Various studies using cellular and animal models of ALS indicate that there is a complex interplay between MN and neighboring non-neuronal cells, such as astrocytes, resulting in noncell autonomous neurodegeneration. Astrocytes in ALS exhibit a lower ability to support MN survival than nondisease-associated ones, which is strongly correlated with low-mitochondrial respiratory activity. Indeed, pharmacological inhibition of pyruvate dehydrogenase kinase (PDK) led to an increase in the mitochondrial oxidative phosphorylation pathway as the primary source of cell energy in SOD1G93A astrocytes and restored the survival of MN. Among the four PDK isoforms, PDK2 is ubiquitously expressed in astrocytes and presents low expression levels in neurons. Herein, we hypothesize whether selective knockdown of PDK2 in astrocytes may increase mitochondrial activity and, in turn, reduce SOD1G93A-associated toxicity. To assess this, cultured neonatal SOD1G93A rat astrocytes were incubated with specific PDK2 siRNA. This treatment resulted in a reduction of the enzyme expression with a concomitant decrease in the phosphorylation rate of the pyruvate dehydrogenase complex. In addition, PDK2-silenced SOD1G93A astrocytes exhibited restored mitochondrial bioenergetics parameters, adopting a more complex mitochondrial network. This treatment also decreased lipid droplet content in SOD1G93A astrocytes, suggesting a switch in energetic metabolism. Significantly, PDK2 knockdown increased the ability of SOD1G93A astrocytes to support MN survival, further supporting the major role of astrocyte mitochondrial respiratory activity in astrocyte-MN interactions. These results suggest that PDK2 silencing could be a cell-specific therapeutic tool to slow the progression of ALS.
dc.description.es.fl_txt_mv Ernesto Miquel: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Rosalía Villarino: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Laura Martínez-Palma: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Adriana Cassina: Departamento de Bioquímica; Universidad de la República Facultad de Medicina, Centro de Investigaciones Biomédicas (CEINBIO) - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Patricia Cassina: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.
dc.format.extent.es.fl_str_mv 28 p.
dc.format.mimetype.es.fl_str_mv application/pdf
dc.identifier.citation.es.fl_str_mv Miquel E, Villarino R, Martínez-Palma L y otros. Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration. GLIA [en línea]. 2024; 72(5). 28 p.
dc.identifier.doi.none.fl_str_mv 10.1002/glia.24516
dc.identifier.issn.none.fl_str_mv 1098-1136
dc.identifier.uri.none.fl_str_mv https://hdl.handle.net/20.500.12008/43355
dc.language.iso.none.fl_str_mv en
eng
dc.publisher.es.fl_str_mv Wiley
dc.relation.ispartof.es.fl_str_mv GLIA 2024; 72(5)
dc.rights.license.none.fl_str_mv Licencia Creative Commons Atribución (CC - By 4.0)
dc.rights.none.fl_str_mv info:eu-repo/semantics/openAccess
dc.source.none.fl_str_mv reponame:COLIBRI
instname:Universidad de la República
instacron:Universidad de la República
dc.subject.es.fl_str_mv Astrocytes
Neurodegenerative diseases
Metabolic interactions with neurons
dc.subject.other.es.fl_str_mv ASTROCITOS
ENFERMEDADES NEURODEGENERATIVAS
NEURONAS
dc.title.none.fl_str_mv Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration
dc.type.es.fl_str_mv Artículo
dc.type.none.fl_str_mv info:eu-repo/semantics/article
dc.type.version.none.fl_str_mv info:eu-repo/semantics/publishedVersion
description Ernesto Miquel: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Rosalía Villarino: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Laura Martínez-Palma: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Adriana Cassina: Departamento de Bioquímica; Universidad de la República Facultad de Medicina, Centro de Investigaciones Biomédicas (CEINBIO) - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Patricia Cassina: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.
eu_rights_str_mv openAccess
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identifier_str_mv Miquel E, Villarino R, Martínez-Palma L y otros. Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration. GLIA [en línea]. 2024; 72(5). 28 p.
1098-1136
10.1002/glia.24516
instacron_str Universidad de la República
institution Universidad de la República
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language eng
language_invalid_str_mv en
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publishDate 2024
reponame_str COLIBRI
repository.mail.fl_str_mv mabel.seroubian@seciu.edu.uy
repository.name.fl_str_mv COLIBRI - Universidad de la República
repository_id_str 4771
rights_invalid_str_mv Licencia Creative Commons Atribución (CC - By 4.0)
spelling Miquel Ernesto, Universidad de la República (Uruguay). Facultad de MedicinaVillarino Rosalía, Universidad de la República (Uruguay). Facultad de MedicinaMartínez-Palma Laura, Universidad de la República (Uruguay). Facultad de MedicinaCassina Adriana, Universidad de la República (Uruguay). Facultad de MedicinaCassina Patricia, Universidad de la República (Uruguay). Facultad de Medicina2024-04-05T17:59:05Z2024-04-05T17:59:05Z2024Miquel E, Villarino R, Martínez-Palma L y otros. Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration. GLIA [en línea]. 2024; 72(5). 28 p.1098-1136https://hdl.handle.net/20.500.12008/4335510.1002/glia.24516Ernesto Miquel: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Rosalía Villarino: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Laura Martínez-Palma: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Adriana Cassina: Departamento de Bioquímica; Universidad de la República Facultad de Medicina, Centro de Investigaciones Biomédicas (CEINBIO) - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.-- Patricia Cassina: Departamento de Histología y Embriología - Universidad de la República Facultad de Medicina, Montevideo, Uruguay.Amyotrophic lateral sclerosis (ALS) is characterized by progressive motor neuron (MN) degeneration. Various studies using cellular and animal models of ALS indicate that there is a complex interplay between MN and neighboring non-neuronal cells, such as astrocytes, resulting in noncell autonomous neurodegeneration. Astrocytes in ALS exhibit a lower ability to support MN survival than nondisease-associated ones, which is strongly correlated with low-mitochondrial respiratory activity. Indeed, pharmacological inhibition of pyruvate dehydrogenase kinase (PDK) led to an increase in the mitochondrial oxidative phosphorylation pathway as the primary source of cell energy in SOD1G93A astrocytes and restored the survival of MN. Among the four PDK isoforms, PDK2 is ubiquitously expressed in astrocytes and presents low expression levels in neurons. Herein, we hypothesize whether selective knockdown of PDK2 in astrocytes may increase mitochondrial activity and, in turn, reduce SOD1G93A-associated toxicity. To assess this, cultured neonatal SOD1G93A rat astrocytes were incubated with specific PDK2 siRNA. This treatment resulted in a reduction of the enzyme expression with a concomitant decrease in the phosphorylation rate of the pyruvate dehydrogenase complex. In addition, PDK2-silenced SOD1G93A astrocytes exhibited restored mitochondrial bioenergetics parameters, adopting a more complex mitochondrial network. This treatment also decreased lipid droplet content in SOD1G93A astrocytes, suggesting a switch in energetic metabolism. Significantly, PDK2 knockdown increased the ability of SOD1G93A astrocytes to support MN survival, further supporting the major role of astrocyte mitochondrial respiratory activity in astrocyte-MN interactions. These results suggest that PDK2 silencing could be a cell-specific therapeutic tool to slow the progression of ALS.Submitted by Almiñana María Cecilia (marialminana@gmail.com) on 2024-04-05T16:48:44Z No. of bitstreams: 2 license_rdf: 24251 bytes, checksum: 71ed42ef0a0b648670f707320be37b90 (MD5) Miquel et al 2024GLIA.pdf: 10929028 bytes, checksum: ff9f311178267ec3dd745aa60893cd2b (MD5)Approved for entry into archive by Almiñana María Cecilia (marialminana@gmail.com) on 2024-04-05T16:52:29Z (GMT) No. of bitstreams: 2 license_rdf: 24251 bytes, checksum: 71ed42ef0a0b648670f707320be37b90 (MD5) Miquel et al 2024GLIA.pdf: 10929028 bytes, checksum: ff9f311178267ec3dd745aa60893cd2b (MD5)Made available in DSpace by Luna Fabiana (fabiana.luna@seciu.edu.uy) on 2024-04-05T17:59:05Z (GMT). No. of bitstreams: 2 license_rdf: 24251 bytes, checksum: 71ed42ef0a0b648670f707320be37b90 (MD5) Miquel et al 2024GLIA.pdf: 10929028 bytes, checksum: ff9f311178267ec3dd745aa60893cd2b (MD5) Previous issue date: 202428 p.application/pdfenengWileyGLIA 2024; 72(5)Las obras depositadas en el Repositorio se rigen por la Ordenanza de los Derechos de la Propiedad Intelectual de la Universidad de la República.(Res. Nº 91 de C.D.C. de 8/III/1994 – D.O. 7/IV/1994) y por la Ordenanza del Repositorio Abierto de la Universidad de la República (Res. Nº 16 de C.D.C. de 07/10/2014)info:eu-repo/semantics/openAccessLicencia Creative Commons Atribución (CC - By 4.0)AstrocytesNeurodegenerative diseasesMetabolic interactions with neuronsASTROCITOSENFERMEDADES NEURODEGENERATIVASNEURONASPyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respirationArtículoinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionreponame:COLIBRIinstname:Universidad de la Repúblicainstacron:Universidad de la RepúblicaMiquel, ErnestoVillarino, RosalíaMartínez-Palma, LauraCassina, AdrianaCassina, PatriciaLICENSElicense.txtlicense.txttext/plain; charset=utf-84267http://localhost:8080/xmlui/bitstream/20.500.12008/43355/5/license.txt6429389a7df7277b72b7924fdc7d47a9MD55CC-LICENSElicense_urllicense_urltext/plain; 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Universidadhttps://udelar.edu.uy/https://www.colibri.udelar.edu.uy/oai/requestmabel.seroubian@seciu.edu.uyUruguayopendoar:47712024-07-25T14:44:44.289219COLIBRI - Universidad de la Repúblicafalse
spellingShingle Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration
Miquel, Ernesto
Astrocytes
Neurodegenerative diseases
Metabolic interactions with neurons
ASTROCITOS
ENFERMEDADES NEURODEGENERATIVAS
NEURONAS
status_str publishedVersion
title Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration
title_full Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration
title_fullStr Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration
title_full_unstemmed Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration
title_short Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration
title_sort Pyruvate dehydrogenase kinase 2 knockdown restores the ability of ALS-linked SOD1G93A rat astrocytes to support motor neuron survival by increasing mitochondrial respiration
topic Astrocytes
Neurodegenerative diseases
Metabolic interactions with neurons
ASTROCITOS
ENFERMEDADES NEURODEGENERATIVAS
NEURONAS
url https://hdl.handle.net/20.500.12008/43355

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