Mouse Tmem135 mutation reveals a mechanism involving mitochondrial dynamics that leads to age-dependent retinal pathologies

While the aging process is central to the pathogenesis of age-dependent diseases, it is poorly understood at the molecular level. We identified a mouse mutant with accelerated aging in the retina as well as pathologies observed in age-dependent retinal diseases, suggesting that the responsible gene...

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Autores principales: Lee, Wei-Hua, Higuchi, Hitoshi, Ikeda, Sakae, Macke, Erica L, Takimoto, Tetsuya, Pattnaik, Bikash R, Liu, Che, Chu, Li-Fang, Siepka, Sandra M, Krentz, Kathleen J, Rubinstein, C Dustin, Kalejta, Robert F, Thomson, James A, Mullins, Robert F, Takahashi, Joseph S, Pinto, Lawrence H, Ikeda, Akihiro
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2016
Materias:
Cell Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5117855/
https://www.ncbi.nlm.nih.gov/pubmed/27863209
http://dx.doi.org/10.7554/eLife.19264
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author Lee, Wei-Hua
Higuchi, Hitoshi
Ikeda, Sakae
Macke, Erica L
Takimoto, Tetsuya
Pattnaik, Bikash R
Liu, Che
Chu, Li-Fang
Siepka, Sandra M
Krentz, Kathleen J
Rubinstein, C Dustin
Kalejta, Robert F
Thomson, James A
Mullins, Robert F
Takahashi, Joseph S
Pinto, Lawrence H
Ikeda, Akihiro
author_facet Lee, Wei-Hua
Higuchi, Hitoshi
Ikeda, Sakae
Macke, Erica L
Takimoto, Tetsuya
Pattnaik, Bikash R
Liu, Che
Chu, Li-Fang
Siepka, Sandra M
Krentz, Kathleen J
Rubinstein, C Dustin
Kalejta, Robert F
Thomson, James A
Mullins, Robert F
Takahashi, Joseph S
Pinto, Lawrence H
Ikeda, Akihiro
author_sort Lee, Wei-Hua
collection PubMed
description While the aging process is central to the pathogenesis of age-dependent diseases, it is poorly understood at the molecular level. We identified a mouse mutant with accelerated aging in the retina as well as pathologies observed in age-dependent retinal diseases, suggesting that the responsible gene regulates retinal aging, and its impairment results in age-dependent disease. We determined that a mutation in the transmembrane 135 (Tmem135) is responsible for these phenotypes. We observed localization of TMEM135 on mitochondria, and imbalance of mitochondrial fission and fusion in mutant Tmem135 as well as Tmem135 overexpressing cells, indicating that TMEM135 is involved in the regulation of mitochondrial dynamics. Additionally, mutant retina showed higher sensitivity to oxidative stress. These results suggest that the regulation of mitochondrial dynamics through TMEM135 is critical for protection from environmental stress and controlling the progression of retinal aging. Our study identified TMEM135 as a critical link between aging and age-dependent diseases. DOI: http://dx.doi.org/10.7554/eLife.19264.001
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spelling pubmed-51178552016-11-28 Mouse Tmem135 mutation reveals a mechanism involving mitochondrial dynamics that leads to age-dependent retinal pathologies Lee, Wei-Hua Higuchi, Hitoshi Ikeda, Sakae Macke, Erica L Takimoto, Tetsuya Pattnaik, Bikash R Liu, Che Chu, Li-Fang Siepka, Sandra M Krentz, Kathleen J Rubinstein, C Dustin Kalejta, Robert F Thomson, James A Mullins, Robert F Takahashi, Joseph S Pinto, Lawrence H Ikeda, Akihiro eLife Cell Biology While the aging process is central to the pathogenesis of age-dependent diseases, it is poorly understood at the molecular level. We identified a mouse mutant with accelerated aging in the retina as well as pathologies observed in age-dependent retinal diseases, suggesting that the responsible gene regulates retinal aging, and its impairment results in age-dependent disease. We determined that a mutation in the transmembrane 135 (Tmem135) is responsible for these phenotypes. We observed localization of TMEM135 on mitochondria, and imbalance of mitochondrial fission and fusion in mutant Tmem135 as well as Tmem135 overexpressing cells, indicating that TMEM135 is involved in the regulation of mitochondrial dynamics. Additionally, mutant retina showed higher sensitivity to oxidative stress. These results suggest that the regulation of mitochondrial dynamics through TMEM135 is critical for protection from environmental stress and controlling the progression of retinal aging. Our study identified TMEM135 as a critical link between aging and age-dependent diseases. DOI: http://dx.doi.org/10.7554/eLife.19264.001 eLife Sciences Publications, Ltd 2016-11-15 /pmc/articles/PMC5117855/ /pubmed/27863209 http://dx.doi.org/10.7554/eLife.19264 Text en © 2016, Lee et al http://creativecommons.org/licenses/by/4.0/ This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Cell Biology
Lee, Wei-Hua
Higuchi, Hitoshi
Ikeda, Sakae
Macke, Erica L
Takimoto, Tetsuya
Pattnaik, Bikash R
Liu, Che
Chu, Li-Fang
Siepka, Sandra M
Krentz, Kathleen J
Rubinstein, C Dustin
Kalejta, Robert F
Thomson, James A
Mullins, Robert F
Takahashi, Joseph S
Pinto, Lawrence H
Ikeda, Akihiro
Mouse Tmem135 mutation reveals a mechanism involving mitochondrial dynamics that leads to age-dependent retinal pathologies
title Mouse Tmem135 mutation reveals a mechanism involving mitochondrial dynamics that leads to age-dependent retinal pathologies
title_full Mouse Tmem135 mutation reveals a mechanism involving mitochondrial dynamics that leads to age-dependent retinal pathologies
title_fullStr Mouse Tmem135 mutation reveals a mechanism involving mitochondrial dynamics that leads to age-dependent retinal pathologies
title_full_unstemmed Mouse Tmem135 mutation reveals a mechanism involving mitochondrial dynamics that leads to age-dependent retinal pathologies
title_short Mouse Tmem135 mutation reveals a mechanism involving mitochondrial dynamics that leads to age-dependent retinal pathologies
title_sort mouse tmem135 mutation reveals a mechanism involving mitochondrial dynamics that leads to age-dependent retinal pathologies
topic Cell Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5117855/
https://www.ncbi.nlm.nih.gov/pubmed/27863209
http://dx.doi.org/10.7554/eLife.19264
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