Role of mitochondrial superoxide dismutase in contraction-induced generation of reactive oxygen species in skeletal muscle extracellular space

doi:10.1152/ajpcell.00322.2003

Role of mitochondrial superoxide dismutase in contraction-induced generation of reactive oxygen species in skeletal muscle extracellular space

A. McArdle,¹ J. van der Meulen,² G. L. Close,¹ D. Pattwell,¹ H. Van Remmen,³ T. T. Huang,⁴ A. G. Richardson,³ C. J. Epstein,⁴ J. A. Faulkner,² and M. J. Jackson¹

¹Department of Medicine, University of Liverpool, Liverpool L69 3GA, United Kingdom; ²Institute of Gerontology, University of Michigan, Ann Arbor, Michigan 48109-2007; ³University of Texas Health Center, San Antonio, Texas 78229-3900; and ⁴Department of Pediatrics, University of California, San Francisco, California 94143-0546

Submitted 28 July 2003 ; accepted in final form 6 January 2004

Contractions of skeletal muscles produce increases in concentrationsof superoxide anions and activity of hydroxyl radicals in theextracellular space. The sources of these reactive oxygen speciesare not clear. We tested the hypothesis that, after a demandingisometric contraction protocol, the major source of superoxideand hydroxyl radical activity in the extracellular space ofmuscles is mitochondrial generation of superoxide anions andthat, with a reduction in MnSOD activity, concentration of superoxideanions in the extracellular space is unchanged but concentrationof hydroxyl radicals is decreased. For gastrocnemius musclesfrom adult (6–8 mo old) wild-type (Sod2^+/+) mice and knockoutmice heterozygous for the MnSOD gene (Sod2^+/-), concentrationsof superoxide anions and hydroxyl radical activity were measuredin the extracellular space by microdialysis. A 15-min protocolof 180 isometric contractions induced a rapid, equivalent increasein reduction of cytochrome c as an index of superoxide anionconcentrations in the extracellular space of Sod2^+/+ and Sod2^+/-mice, whereas hydroxyl radical activity measured by formationof 2,3-dihydroxybenzoate from salicylate increased only in theextracellular space of muscles of Sod2^+/+ mice. The lack ofa difference in increase in superoxide anion concentration inthe extracellular space of Sod2^+/+ and Sod2^+/- mice after thecontraction protocol supported the hypothesis that superoxideanions were not directly derived from mitochondria. In contrast,the data obtained suggest that the increase in hydroxyl radicalconcentration in the extracellular space of muscles from wild-typemice after the contraction protocol most likely results fromdegradation of hydrogen peroxide generated by MnSOD activity.

hydroxyl radicals; microdialysis

Address for reprint requests and other correspondence: M. J. Jackson, Dept. of Medicine, Univ. of Liverpool, Liverpool L69 3GA, UK (E-mail: m.j.jackson{at}liverpool.ac.uk).

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