Literature DB >> 26073122

Oxidative stress in inherited mitochondrial diseases.

Genki Hayashi1, Gino Cortopassi2.   

Abstract

Mitochondria are a source of reactive oxygen species (ROS). Mitochondrial diseases are the result of inherited defects in mitochondrially expressed genes. One potential pathomechanism for mitochondrial disease is oxidative stress. Oxidative stress can occur as the result of increased ROS production or decreased ROS protection. The role of oxidative stress in the five most common inherited mitochondrial diseases, Friedreich ataxia, LHON, MELAS, MERRF, and Leigh syndrome (LS), is discussed. Published reports of oxidative stress involvement in the pathomechanisms of these five mitochondrial diseases are reviewed. The strongest evidence for an oxidative stress pathomechanism among the five diseases was for Friedreich ataxia. In addition, a meta-analysis was carried out to provide an unbiased evaluation of the role of oxidative stress in the five diseases, by searching for "oxidative stress" citation count frequency for each disease. Of the five most common mitochondrial diseases, the strongest support for oxidative stress is for Friedreich ataxia (6.42%), followed by LHON (2.45%), MELAS (2.18%), MERRF (1.71%), and LS (1.03%). The increased frequency of oxidative stress citations was significant relative to the mean of the total pool of five diseases (p<0.01) and the mean of the four non-Friedreich diseases (p<0.0001). Thus there is support for oxidative stress in all five most common mitochondrial diseases, but the strongest, significant support is for Friedreich ataxia. Published by Elsevier Inc.

Entities:  

Keywords:  Free radicals; Friedreich ataxia; Inflammation; Leber hereditary optic neuropathy; Leigh syndrome; MELAS; MERRF; Mitochondrial disease; Neurodegeneration; Neuroinflammation; Oxidative stress

Mesh:

Substances:

Year:  2015        PMID: 26073122      PMCID: PMC4593728          DOI: 10.1016/j.freeradbiomed.2015.05.039

Source DB:  PubMed          Journal:  Free Radic Biol Med        ISSN: 0891-5849            Impact factor:   7.376


  110 in total

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Journal:  Stem Cells Dev       Date:  2012-06-11       Impact factor: 3.272

4.  Population prevalence of the MELAS A3243G mutation.

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Journal:  Mitochondrion       Date:  2007-01-08       Impact factor: 4.160

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Journal:  Mitochondrion       Date:  2011-07-18       Impact factor: 4.160

Review 6.  Mitochondrial DNA mutation-elicited oxidative stress, oxidative damage, and altered gene expression in cultured cells of patients with MERRF syndrome.

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Journal:  PLoS One       Date:  2012-04-03       Impact factor: 3.240

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Authors:  William M Johnson; Amy L Wilson-Delfosse; John J Mieyal
Journal:  Nutrients       Date:  2012-10-09       Impact factor: 5.717

10.  Frataxin deficiency increases cyclooxygenase 2 and prostaglandins in cell and animal models of Friedreich's ataxia.

Authors:  Genki Hayashi; Yan Shen; Theresa L Pedersen; John W Newman; Mark Pook; Gino Cortopassi
Journal:  Hum Mol Genet       Date:  2014-08-07       Impact factor: 6.150
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  48 in total

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Journal:  J Biol Chem       Date:  2017-01-03       Impact factor: 5.157

2.  Complex I mutations synergize to worsen the phenotypic expression of Leber's hereditary optic neuropathy.

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Journal:  J Biol Chem       Date:  2020-07-28       Impact factor: 5.157

3.  A hypertension-associated mitochondrial DNA mutation alters the tertiary interaction and function of tRNALeu(UUR).

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Journal:  J Biol Chem       Date:  2017-07-05       Impact factor: 5.157

4.  N-acetylcysteine and vitamin E rescue animal longevity and cellular oxidative stress in pre-clinical models of mitochondrial complex I disease.

Authors:  Erzsebet Polyak; Julian Ostrovsky; Min Peng; Stephen D Dingley; Mai Tsukikawa; Young Joon Kwon; Shana E McCormack; Michael Bennett; Rui Xiao; Christoph Seiler; Zhe Zhang; Marni J Falk
Journal:  Mol Genet Metab       Date:  2018-02-23       Impact factor: 4.797

5.  A hypertension-associated mitochondrial DNA mutation introduces an m1G37 modification into tRNAMet, altering its structure and function.

Authors:  Mi Zhou; Ling Xue; Yaru Chen; Haiying Li; Qiufen He; Bibin Wang; Feilong Meng; Meng Wang; Min-Xin Guan
Journal:  J Biol Chem       Date:  2017-12-08       Impact factor: 5.157

Review 6.  How to bake a brain: yeast as a model neuron.

Authors:  Isabella Sarto-Jackson; Lubomir Tomaska
Journal:  Curr Genet       Date:  2016-01-18       Impact factor: 3.886

7.  Contribution of a mitochondrial tyrosyl-tRNA synthetase mutation to the phenotypic expression of the deafness-associated tRNASer(UCN) 7511A>G mutation.

Authors:  Wenlu Fan; Jing Zheng; Wanzhong Kong; Limei Cui; Maerhaba Aishanjiang; Qiuzi Yi; Min Wang; Xiaohui Cang; Xiaowen Tang; Ye Chen; Jun Qin Mo; Neal Sondheimer; Wanzhong Ge; Min-Xin Guan
Journal:  J Biol Chem       Date:  2019-11-04       Impact factor: 5.157

Review 8.  Bioenergetic regulation of microglia.

Authors:  Soumitra Ghosh; Erika Castillo; Elma S Frias; Raymond A Swanson
Journal:  Glia       Date:  2017-12-08       Impact factor: 7.452

9.  Nitroxyl Modified Tobacco Mosaic Virus as a Metal-Free High-Relaxivity MRI and EPR Active Superoxide Sensor.

Authors:  Madushani Dharmarwardana; André F Martins; Zhuo Chen; Philip M Palacios; Chance M Nowak; Raymond P Welch; Shaobo Li; Michael A Luzuriaga; Leonidas Bleris; Brad S Pierce; A Dean Sherry; Jeremiah J Gassensmith
Journal:  Mol Pharm       Date:  2018-05-29       Impact factor: 4.939

10.  Mutations in VPS13D lead to a new recessive ataxia with spasticity and mitochondrial defects.

Authors:  Eunju Seong; Ryan Insolera; Marija Dulovic; Erik-Jan Kamsteeg; Joanne Trinh; Norbert Brüggemann; Erin Sandford; Sheng Li; Ayse Bilge Ozel; Jun Z Li; Tamison Jewett; Anneke J A Kievit; Alexander Münchau; Vikram Shakkottai; Christine Klein; Catherine A Collins; Katja Lohmann; Bart P van de Warrenburg; Margit Burmeister
Journal:  Ann Neurol       Date:  2018-06-30       Impact factor: 10.422
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