Human NADH:ubiquinone oxidoreductase deficiency: radical changes in mitochondrial morphology?

1 Department of Membrane Biochemistry, Nijmegen Centre for Molecular Life Sciences, 2 Department of Paediatrics, Nijmegen Centre for Mitochondrial Disorders, and 3 Microscopical Imaging Centre of the Nijmegen Centre for Molecular Life Sciences, Radboud University Nijmegen Medical Centre, Nijmegen, T...

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Published in:American Journal of Physiology: Cell Physiology 2007-07, Vol.293 (1), p.C22-C29
Main Authors: Koopman, Werner J. H, Verkaart, Sjoerd, Visch, Henk Jan, van Emst-de Vries, Sjenet, Nijtmans, Leo G. J, Smeitink, Jan A. M, Willems, Peter H. G. M
Format: Article
Language:English
Subjects:
Antioxidants
Cell Line
Cells
Child
Cluster Analysis
Correlation analysis
Electron Transport Complex I - antagonists & inhibitors
Electron Transport Complex I - deficiency
Electron Transport Complex I - genetics
Electron Transport Complex I - metabolism
Electrophoresis
Enzyme Inhibitors - pharmacology
Enzymes
Fibroblasts - drug effects
Fibroblasts - enzymology
Fibroblasts - metabolism
Fibroblasts - pathology
Genetic Predisposition to Disease
Humans
Membrane Potential, Mitochondrial
Microscopy
Microscopy, Confocal
Microscopy, Video
Mitochondria - drug effects
Mitochondria - enzymology
Mitochondria - metabolism
Mitochondria - pathology
Mitochondrial Diseases - enzymology
Mitochondrial Diseases - genetics
Mitochondrial Diseases - metabolism
Mitochondrial Diseases - pathology
Mitochondrial Proteins - metabolism
Mitochondrial Size
Mutation
Oxidative Phosphorylation - drug effects
Reactive Oxygen Species - metabolism
Reproducibility of Results
Rotenone - pharmacology
Severity of Illness Index
Uncoupling Agents - pharmacology
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Summary:1 Department of Membrane Biochemistry, Nijmegen Centre for Molecular Life Sciences, 2 Department of Paediatrics, Nijmegen Centre for Mitochondrial Disorders, and 3 Microscopical Imaging Centre of the Nijmegen Centre for Molecular Life Sciences, Radboud University Nijmegen Medical Centre, Nijmegen, The Netherlands Submitted 20 April 2006 ; accepted in final form 10 April 2007 ABSTRACT Malfunction of NADH:ubiquinone oxidoreductase or complex I (CI), the first and largest complex of the mitochondrial oxidative phosphorylation system, has been implicated in a wide variety of human disorders. To demonstrate a quantitative relationship between CI amount and activity and mitochondrial shape and cellular reactive oxygen species (ROS) levels, we recently combined native electrophoresis and confocal and video microscopy of dermal fibroblasts of healthy control subjects and children with isolated CI deficiency. Individual mitochondria appeared fragmented and/or less branched in patient fibroblasts with a severely reduced CI amount and activity (class I), whereas patient cells in which these latter parameters were only moderately reduced displayed a normal mitochondrial morphology (class II). Moreover, cellular ROS levels were significantly more increased in class I compared with class II cells. We propose a mechanism in which a mutation-induced decrease in the cellular amount and activity of CI leads to enhanced ROS levels, which, in turn, induce mitochondrial fragmentation when not appropriately counterbalanced by the cell's antioxidant defense systems. complex I; reactive oxygen species; microscopy; fluorescence Address for reprint requests and other correspondence: P. H. G. M. Willems, 286 Membrane Biochemistry NCMLS, Radboud Univ. Nijmegen Medical Centre, P.O. Box 9101, NL-6500 HB Nijmegen, The Netherlands (e-mail: p.willems{at}ncmls.ru.nl )
ISSN:0363-6143
1522-1563
DOI:10.1152/ajpcell.00194.2006