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Familial ALS-superoxide dismutases associate with mitochondria and shift their redox potentials

TitoloFamilial ALS-superoxide dismutases associate with mitochondria and shift their redox potentials
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione2006
AutoriFerri, A., Cozzolino M., Crosio C., Nencini M., Casciati Arianna, Gralla E.B., Rotilio G., Valentine J.S., and Carrì M.T.
RivistaProceedings of the National Academy of Sciences of the United States of America
Volume103
Paginazione13860-13865
ISSN00278424
Parole chiaveamyotrophic lateral sclerosis, animal cell, Animals, article, cell death, copper zinc superoxide dismutase, Cysteine, disease association, enzyme analysis, familial disease, gene mutation, Humans, Mice, Mitochondria, mitochondrial respiration, motoneuron, Motor Neurons, mouse, mutant protein, mutant superoxide dismutase 1, mutation, nonhuman, oligomer, oligomerization, oxidation reduction reaction, Oxidation-Reduction, priority journal, protein cross linking, superoxide dismutase, unclassified drug, wild type
Abstract

Recent studies suggest that the toxicity of familial amyotrophic lateral sclerosis mutant Cu, Zn superoxide dismutase (SOD1) arises from its selective recruitment to mitochondria. Here we demonstrate that each of 12 different familial ALS-mutant SOD1s with widely differing biophysical properties are associated with mitochondria of motoneuronal cells to a much greater extent than wild-type SOD1, and that this effect may depend on the oxidation of Cys residues. We demonstrate further that mutant SOD1 proteins associated with the mitochondria tend to form cross-linked oligomers and that their presence causes a shift in the redox state of these organelles and results in impairment of respiratory complexes. The observation that such a diverse set of mutant SOD1 proteins behave so similarly in mitochondria of motoneuronal cells and so differently from wild-type SOD1 suggests that this behavior may explain the toxicity of ALS-mutant SOD1 proteins, which causes motor neurons to die. © 2006 by The National Academy of Sciences of the USA.

Note

cited By 150

URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-33748795566&doi=10.1073%2fpnas.0605814103&partnerID=40&md5=cf338e1cf13c9b883f4e1a5cdc41bbeb
DOI10.1073/pnas.0605814103
Citation KeyFerri200613860