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Cultured muscle cells display defects of mitochondrial myopathy ameliorated by anti-oxidants.

Authors :
Vargani L
Malena A
Sabatelli P
Loro E
Cavallini L
Magalhaes P
Valente L
Bragantini F
Carrara F
Leger B
Poulton J
Russell AP
Holt IJ
Vergani, Lodovica
Malena, Adriana
Sabatelli, Patrizia
Loro, Emanuele
Cavallini, Lucia
Magalhaes, Paolo
Valente, Lucia
Source :
Brain: A Journal of Neurology; Oct2007, Vol. 130 Issue 10, p2715-2724, 10p
Publication Year :
2007

Abstract

The mitochondrial DNA A3243G mutation causes neuromuscular disease. To investigate the muscle-specific pathophysiology of mitochondrial disease, rhabdomyosarcoma transmitochondrial hybrid cells (cybrids) were generated that retain the capacity to differentiate to myotubes. In some cases, striated muscle-like fibres were formed after innervation with rat embryonic spinal cord. Myotubes carrying A3243G mtDNA produced more reactive oxygen species than controls, and had altered glutathione homeostasis. Moreover, A3243G mutant myotubes showed evidence of abnormal mitochondrial distribution, which was associated with down-regulation of three genes involved in mitochondrial morphology, Mfn1, Mfn2 and DRP1. Electron microscopy revealed mitochondria with ultrastructural abnormalities and paracrystalline inclusions. All these features were ameliorated by anti-oxidant treatment, with the exception of the paracrystalline inclusions. These data suggest that rhabdomyosarcoma cybrids are a valid cellular model for studying muscle-specific features of mitochondrial disease and that excess reactive oxygen species production is a significant contributor to mitochondrial dysfunction, which is amenable to anti-oxidant therapy. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00068950
Volume :
130
Issue :
10
Database :
Complementary Index
Journal :
Brain: A Journal of Neurology
Publication Type :
Academic Journal
Accession number :
105844626