PGC-1α Determines Light Damage Susceptibility of the Murine Retina

The peroxisome proliferator-activated receptor γ coactivator 1 (PGC-1) proteins are key regulators of cellular bioenergetics and are accordingly expressed in tissues with a high energetic demand. For example, PGC-1α and PGC-1β control organ function of brown adipose tissue, heart, brain, liver and s...

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Autores principales: Egger, Anna, Samardzija, Marijana, Sothilingam, Vithiyanjali, Tanimoto, Naoyuki, Lange, Christina, Salatino, Silvia, Fang, Lei, Garcia-Garrido, Marina, Beck, Susanne, Okoniewski, Michal J., Neutzner, Albert, Seeliger, Mathias W., Grimm, Christian, Handschin, Christoph
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3278422/
https://www.ncbi.nlm.nih.gov/pubmed/22348062
http://dx.doi.org/10.1371/journal.pone.0031272
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author Egger, Anna
Samardzija, Marijana
Sothilingam, Vithiyanjali
Tanimoto, Naoyuki
Lange, Christina
Salatino, Silvia
Fang, Lei
Garcia-Garrido, Marina
Beck, Susanne
Okoniewski, Michal J.
Neutzner, Albert
Seeliger, Mathias W.
Grimm, Christian
Handschin, Christoph
author_facet Egger, Anna
Samardzija, Marijana
Sothilingam, Vithiyanjali
Tanimoto, Naoyuki
Lange, Christina
Salatino, Silvia
Fang, Lei
Garcia-Garrido, Marina
Beck, Susanne
Okoniewski, Michal J.
Neutzner, Albert
Seeliger, Mathias W.
Grimm, Christian
Handschin, Christoph
author_sort Egger, Anna
collection PubMed
description The peroxisome proliferator-activated receptor γ coactivator 1 (PGC-1) proteins are key regulators of cellular bioenergetics and are accordingly expressed in tissues with a high energetic demand. For example, PGC-1α and PGC-1β control organ function of brown adipose tissue, heart, brain, liver and skeletal muscle. Surprisingly, despite their prominent role in the control of mitochondrial biogenesis and oxidative metabolism, expression and function of the PGC-1 coactivators in the retina, an organ with one of the highest energy demands per tissue weight, are completely unknown. Moreover, the molecular mechanisms that coordinate energy production with repair processes in the damaged retina remain enigmatic. In the present study, we thus investigated the expression and function of the PGC-1 coactivators in the healthy and the damaged retina. We show that PGC-1α and PGC-1β are found at high levels in different structures of the mouse retina, most prominently in the photoreceptors. Furthermore, PGC-1α knockout mice suffer from a striking deterioration in retinal morphology and function upon detrimental light exposure. Gene expression studies revealed dysregulation of all major pathways involved in retinal damage and apoptosis, repair and renewal in the PGC-1α knockouts. The light-induced increase in apoptosis in vivo in the absence of PGC-1α was substantiated in vitro, where overexpression of PGC-1α evoked strong anti-apoptotic effects. Finally, we found that retinal levels of PGC-1 expression are reduced in different mouse models for retinitis pigmentosa. We demonstrate that PGC-1α is a central coordinator of energy production and, importantly, all of the major processes involved in retinal damage and subsequent repair. Together with the observed dysregulation of PGC-1α and PGC-1β in retinitis pigmentosa mouse models, these findings thus imply that PGC-1α might be an attractive target for therapeutic approaches aimed at retinal degeneration diseases.
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spelling pubmed-32784222012-02-17 PGC-1α Determines Light Damage Susceptibility of the Murine Retina Egger, Anna Samardzija, Marijana Sothilingam, Vithiyanjali Tanimoto, Naoyuki Lange, Christina Salatino, Silvia Fang, Lei Garcia-Garrido, Marina Beck, Susanne Okoniewski, Michal J. Neutzner, Albert Seeliger, Mathias W. Grimm, Christian Handschin, Christoph PLoS One Research Article The peroxisome proliferator-activated receptor γ coactivator 1 (PGC-1) proteins are key regulators of cellular bioenergetics and are accordingly expressed in tissues with a high energetic demand. For example, PGC-1α and PGC-1β control organ function of brown adipose tissue, heart, brain, liver and skeletal muscle. Surprisingly, despite their prominent role in the control of mitochondrial biogenesis and oxidative metabolism, expression and function of the PGC-1 coactivators in the retina, an organ with one of the highest energy demands per tissue weight, are completely unknown. Moreover, the molecular mechanisms that coordinate energy production with repair processes in the damaged retina remain enigmatic. In the present study, we thus investigated the expression and function of the PGC-1 coactivators in the healthy and the damaged retina. We show that PGC-1α and PGC-1β are found at high levels in different structures of the mouse retina, most prominently in the photoreceptors. Furthermore, PGC-1α knockout mice suffer from a striking deterioration in retinal morphology and function upon detrimental light exposure. Gene expression studies revealed dysregulation of all major pathways involved in retinal damage and apoptosis, repair and renewal in the PGC-1α knockouts. The light-induced increase in apoptosis in vivo in the absence of PGC-1α was substantiated in vitro, where overexpression of PGC-1α evoked strong anti-apoptotic effects. Finally, we found that retinal levels of PGC-1 expression are reduced in different mouse models for retinitis pigmentosa. We demonstrate that PGC-1α is a central coordinator of energy production and, importantly, all of the major processes involved in retinal damage and subsequent repair. Together with the observed dysregulation of PGC-1α and PGC-1β in retinitis pigmentosa mouse models, these findings thus imply that PGC-1α might be an attractive target for therapeutic approaches aimed at retinal degeneration diseases. Public Library of Science 2012-02-13 /pmc/articles/PMC3278422/ /pubmed/22348062 http://dx.doi.org/10.1371/journal.pone.0031272 Text en Egger et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Egger, Anna
Samardzija, Marijana
Sothilingam, Vithiyanjali
Tanimoto, Naoyuki
Lange, Christina
Salatino, Silvia
Fang, Lei
Garcia-Garrido, Marina
Beck, Susanne
Okoniewski, Michal J.
Neutzner, Albert
Seeliger, Mathias W.
Grimm, Christian
Handschin, Christoph
PGC-1α Determines Light Damage Susceptibility of the Murine Retina
title PGC-1α Determines Light Damage Susceptibility of the Murine Retina
title_full PGC-1α Determines Light Damage Susceptibility of the Murine Retina
title_fullStr PGC-1α Determines Light Damage Susceptibility of the Murine Retina
title_full_unstemmed PGC-1α Determines Light Damage Susceptibility of the Murine Retina
title_short PGC-1α Determines Light Damage Susceptibility of the Murine Retina
title_sort pgc-1α determines light damage susceptibility of the murine retina
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3278422/
https://www.ncbi.nlm.nih.gov/pubmed/22348062
http://dx.doi.org/10.1371/journal.pone.0031272
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