Functionally and morphologically damaged mitochondria observed in auditory cells under senescence-inducing stress

Functionally and morphologically damaged mitochondria observed in auditory cells under senescence-inducing stress

Auditory system senescence: Mitochondrial dynamics and respiration The mitochondrial morphology and physiology could influence the process of age-related hearing loss. Prof. Tatsuya Yamasoba’s research group at the University of Tokyo has examined the functional changes of mitochondria in terms of i...

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Main Authors: Teru Kamogashira, Ken Hayashi, Chisato Fujimoto, Shinichi Iwasaki, Tatsuya Yamasoba
Format: Article
Language:English
Published: Nature Publishing Group 2017-01-01
Series:npj Aging and Mechanisms of Disease
Online Access:https://doi.org/10.1038/s41514-017-0002-2
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spelling doaj-b32cd4c02d5741e68cba2a19dba4174f2021-04-02T20:15:11ZengNature Publishing Groupnpj Aging and Mechanisms of Disease2056-39732017-01-013111110.1038/s41514-017-0002-2Functionally and morphologically damaged mitochondria observed in auditory cells under senescence-inducing stressTeru Kamogashira0Ken Hayashi1Chisato Fujimoto2Shinichi Iwasaki3Tatsuya Yamasoba4Department of Otolaryngology and Head and Neck Surgery, University of TokyoDepartment of Otolaryngology, Kamio Memorial HospitalDepartment of Otolaryngology and Head and Neck Surgery, University of TokyoDepartment of Otolaryngology and Head and Neck Surgery, University of TokyoDepartment of Otolaryngology and Head and Neck Surgery, University of TokyoAuditory system senescence: Mitochondrial dynamics and respiration The mitochondrial morphology and physiology could influence the process of age-related hearing loss. Prof. Tatsuya Yamasoba’s research group at the University of Tokyo has examined the functional changes of mitochondria in terms of its respiratory function, membrane potential and morphology under premature senescence induced by oxidative stress in an auditory cell line. The morphological and functional mitochondrial damage were observed as the respiratory capacity deficiency and the fluctuation of the fusion/fission balance. Their results provide evidence of the fundamental interdependence between mitochondrial metabolic activity and its network structure in premature senescence process of auditory cells. This is a pioneer study to indicate the influence of mitochondrial dynamics and respiratory system on the premature senescence process of auditory cells. Further studies into inter cellular communication including cytoskeleton and nucleus can help us understand the etiology underlying age-related hearing loss.https://doi.org/10.1038/s41514-017-0002-2
collection DOAJ
language English
format Article
sources DOAJ
author Teru Kamogashira
Ken Hayashi
Chisato Fujimoto
Shinichi Iwasaki
Tatsuya Yamasoba
spellingShingle Teru Kamogashira
Ken Hayashi
Chisato Fujimoto
Shinichi Iwasaki
Tatsuya Yamasoba
Functionally and morphologically damaged mitochondria observed in auditory cells under senescence-inducing stress
npj Aging and Mechanisms of Disease
author_facet Teru Kamogashira
Ken Hayashi
Chisato Fujimoto
Shinichi Iwasaki
Tatsuya Yamasoba
author_sort Teru Kamogashira
title Functionally and morphologically damaged mitochondria observed in auditory cells under senescence-inducing stress
title_short Functionally and morphologically damaged mitochondria observed in auditory cells under senescence-inducing stress
title_full Functionally and morphologically damaged mitochondria observed in auditory cells under senescence-inducing stress
title_fullStr Functionally and morphologically damaged mitochondria observed in auditory cells under senescence-inducing stress
title_full_unstemmed Functionally and morphologically damaged mitochondria observed in auditory cells under senescence-inducing stress
title_sort functionally and morphologically damaged mitochondria observed in auditory cells under senescence-inducing stress
publisher Nature Publishing Group
series npj Aging and Mechanisms of Disease
issn 2056-3973
publishDate 2017-01-01
description Auditory system senescence: Mitochondrial dynamics and respiration The mitochondrial morphology and physiology could influence the process of age-related hearing loss. Prof. Tatsuya Yamasoba’s research group at the University of Tokyo has examined the functional changes of mitochondria in terms of its respiratory function, membrane potential and morphology under premature senescence induced by oxidative stress in an auditory cell line. The morphological and functional mitochondrial damage were observed as the respiratory capacity deficiency and the fluctuation of the fusion/fission balance. Their results provide evidence of the fundamental interdependence between mitochondrial metabolic activity and its network structure in premature senescence process of auditory cells. This is a pioneer study to indicate the influence of mitochondrial dynamics and respiratory system on the premature senescence process of auditory cells. Further studies into inter cellular communication including cytoskeleton and nucleus can help us understand the etiology underlying age-related hearing loss.
url https://doi.org/10.1038/s41514-017-0002-2
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AT chisatofujimoto functionallyandmorphologicallydamagedmitochondriaobservedinauditorycellsundersenescenceinducingstress
AT shinichiiwasaki functionallyandmorphologicallydamagedmitochondriaobservedinauditorycellsundersenescenceinducingstress
AT tatsuyayamasoba functionallyandmorphologicallydamagedmitochondriaobservedinauditorycellsundersenescenceinducingstress
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