A Drosophila model of mitochondrial disease caused by a complex I mutation that uncouples proton pumping from electron transfer
© 2014, Company of Biologists Ltd. All rights reserved. Mutations affecting mitochondrial complex I, a multi-subunit assembly that couples electron transfer to proton pumping, are the most frequent cause of heritable mitochondrial diseases. However, the mechanisms by which complex I dysfunction resu...
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th-mahidol.334592018-11-09T10:07:58Z A Drosophila model of mitochondrial disease caused by a complex I mutation that uncouples proton pumping from electron transfer Jonathon L. Burman Leslie S. Itsara Ernst Bernhard Kayser Wichit Suthammarak Adrienne M. Wang Matt Kaeberlein Margaret M. Sedensky Philip G. Morgan Leo J. Pallanck University of Washington, Seattle Seattle Children's Research Institute Faculty of Medicine, Siriraj Hospital, Mahidol University Biochemistry, Genetics and Molecular Biology Immunology and Microbiology Medicine Neuroscience © 2014, Company of Biologists Ltd. All rights reserved. Mutations affecting mitochondrial complex I, a multi-subunit assembly that couples electron transfer to proton pumping, are the most frequent cause of heritable mitochondrial diseases. However, the mechanisms by which complex I dysfunction results in disease remain unclear. Here, we describe a Drosophila model of complex I deficiency caused by a homoplasmic mutation in the mitochondrial-DNA-encoded NADH dehydrogenase subunit 2 (ND2 ) gene. We show that ND2 mutants exhibit phenotypes that resemble symptoms of mitochondrial disease, including shortened lifespan, progressive neurodegeneration, diminished neural mitochondrial membrane potential and lower levels of neural ATP. Our biochemical studies of ND2 mutants reveal that complex I is unable to efficiently couple electron transfer to proton pumping. Thus, our study provides evidence that the ND2 subunit participates directly in the proton pumping mechanism of complex I. Together, our findings support the model that diminished respiratory chain activity, and consequent energy deficiency, are responsible for the pathogenesis of complex-I-associated neurodegeneration. 2018-11-09T01:59:23Z 2018-11-09T01:59:23Z 2014-01-01 Article DMM Disease Models and Mechanisms. Vol.7, No.10 (2014), 1165-1174 10.1242/dmm.015321 17548411 17548403 2-s2.0-84907507308 https://repository.li.mahidol.ac.th/handle/123456789/33459 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84907507308&origin=inward |
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Biochemistry, Genetics and Molecular Biology Immunology and Microbiology Medicine Neuroscience |
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Biochemistry, Genetics and Molecular Biology Immunology and Microbiology Medicine Neuroscience Jonathon L. Burman Leslie S. Itsara Ernst Bernhard Kayser Wichit Suthammarak Adrienne M. Wang Matt Kaeberlein Margaret M. Sedensky Philip G. Morgan Leo J. Pallanck A Drosophila model of mitochondrial disease caused by a complex I mutation that uncouples proton pumping from electron transfer |
| description |
© 2014, Company of Biologists Ltd. All rights reserved. Mutations affecting mitochondrial complex I, a multi-subunit assembly that couples electron transfer to proton pumping, are the most frequent cause of heritable mitochondrial diseases. However, the mechanisms by which complex I dysfunction results in disease remain unclear. Here, we describe a Drosophila model of complex I deficiency caused by a homoplasmic mutation in the mitochondrial-DNA-encoded NADH dehydrogenase subunit 2 (ND2 ) gene. We show that ND2 mutants exhibit phenotypes that resemble symptoms of mitochondrial disease, including shortened lifespan, progressive neurodegeneration, diminished neural mitochondrial membrane potential and lower levels of neural ATP. Our biochemical studies of ND2 mutants reveal that complex I is unable to efficiently couple electron transfer to proton pumping. Thus, our study provides evidence that the ND2 subunit participates directly in the proton pumping mechanism of complex I. Together, our findings support the model that diminished respiratory chain activity, and consequent energy deficiency, are responsible for the pathogenesis of complex-I-associated neurodegeneration. |
| author2 |
University of Washington, Seattle |
| author_facet |
University of Washington, Seattle Jonathon L. Burman Leslie S. Itsara Ernst Bernhard Kayser Wichit Suthammarak Adrienne M. Wang Matt Kaeberlein Margaret M. Sedensky Philip G. Morgan Leo J. Pallanck |
| format |
Article |
| author |
Jonathon L. Burman Leslie S. Itsara Ernst Bernhard Kayser Wichit Suthammarak Adrienne M. Wang Matt Kaeberlein Margaret M. Sedensky Philip G. Morgan Leo J. Pallanck |
| author_sort |
Jonathon L. Burman |
| title |
A Drosophila model of mitochondrial disease caused by a complex I mutation that uncouples proton pumping from electron transfer |
| title_short |
A Drosophila model of mitochondrial disease caused by a complex I mutation that uncouples proton pumping from electron transfer |
| title_full |
A Drosophila model of mitochondrial disease caused by a complex I mutation that uncouples proton pumping from electron transfer |
| title_fullStr |
A Drosophila model of mitochondrial disease caused by a complex I mutation that uncouples proton pumping from electron transfer |
| title_full_unstemmed |
A Drosophila model of mitochondrial disease caused by a complex I mutation that uncouples proton pumping from electron transfer |
| title_sort |
drosophila model of mitochondrial disease caused by a complex i mutation that uncouples proton pumping from electron transfer |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/33459 |
| _version_ |
1763491973404033024 |