Giorgos K Sakellariou1, Brian McDonagh1, Helen Porter1, Ifigeneia I Giakoumaki1, Kate E Earl1, Gareth A Nye1, Aphrodite Vasilaki1, Susan V Brooks2, Arlan Richardson3,4, Holly Van Remmen4,5, Anne McArdle1, Malcolm J Jackson1. 1. 1 MRC-Arthritis Research UK Centre for Integrated Research into Musculoskeletal Ageing, Department of Musculoskeletal Biology, Institute of Ageing and Chronic Disease, University of Liverpool , Liverpool, United Kingdom . 2. 2 Department of Molecular and Integrative Physiology, University of Michigan , Ann Arbor, Michigan. 3. 3 Reynolds Oklahoma Center on Aging, University of Oklahoma Health Sciences Center and Oklahoma City VA Medical Center , Oklahoma City, Oklahoma. 4. 4 Oklahoma VA Medical Center , Oklahoma City, Oklahoma. 5. 5 Free Radical Biology and Aging Program, Oklahoma Medical Research Foundation , Oklahoma City, Oklahoma.
Abstract
AIMS: Lack of Cu,Zn-superoxide dismutase (CuZnSOD) in homozygous knockout mice (Sod1-/-) leads to accelerated age-related muscle loss and weakness, but specific deletion of CuZnSOD in skeletal muscle (mSod1KO mice) or neurons (nSod1KO mice) resulted in only mild muscle functional deficits and failed to recapitulate the loss of mass and function observed in Sod1-/- mice. To dissect any underlying cross-talk between motor neurons and skeletal muscle in the degeneration in Sod1-/- mice, we characterized neuromuscular changes in the Sod1-/- model compared with mSod1KO mice and examined degenerative molecular mechanisms and pathways in peripheral nerve and skeletal muscle. RESULTS: In contrast to mSod1KO mice, myofiber atrophy in Sod1-/- mice was associated with increased muscle oxidative damage, neuromuscular junction degeneration, denervation, nerve demyelination, and upregulation of proteins involved in maintenance of myelin sheaths. Proteomic analyses confirmed increased proteasomal activity and adaptive stress responses in muscle of Sod1-/- mice that were absent in mSod1KO mice. Peripheral nerve from neither Sod1-/- nor mSod1KO mice showed increased oxidative damage or molecular responses to increased oxidation compared with wild type mice. Differential cysteine (Cys) labeling revealed a specific redox shift in the catalytic Cys residue of peroxiredoxin 6 (Cys47) in the peripheral nerve from Sod1-/- mice. Innovation and Conclusion: These findings demonstrate that neuromuscular integrity, redox mechanisms, and pathways are differentially altered in nerve and muscle of Sod1-/- and mSod1KO mice. Results support the concept that impaired redox signaling, rather than oxidative damage, in peripheral nerve plays a key role in muscle loss in Sod1-/- mice and potentially sarcopenia during aging. Antioxid. Redox Signal. 28, 275-295.
AIMS: Lack of Cu,Zn-superoxide dismutase (CuZnSOD) in homozygous knockout mice (Sod1-/-) leads to accelerated age-related muscle loss and weakness, but specific deletion of CuZnSOD in skeletal muscle (mSod1KO mice) or neurons (nSod1KO mice) resulted in only mild muscle functional deficits and failed to recapitulate the loss of mass and function observed in Sod1-/- mice. To dissect any underlying cross-talk between motor neurons and skeletal muscle in the degeneration in Sod1-/- mice, we characterized neuromuscular changes in the Sod1-/- model compared with mSod1KO mice and examined degenerative molecular mechanisms and pathways in peripheral nerve and skeletal muscle. RESULTS: In contrast to mSod1KO mice, myofiber atrophy in Sod1-/- mice was associated with increased muscle oxidative damage, neuromuscular junction degeneration, denervation, nerve demyelination, and upregulation of proteins involved in maintenance of myelin sheaths. Proteomic analyses confirmed increased proteasomal activity and adaptive stress responses in muscle of Sod1-/- mice that were absent in mSod1KO mice. Peripheral nerve from neither Sod1-/- nor mSod1KO mice showed increased oxidative damage or molecular responses to increased oxidation compared with wild type mice. Differential cysteine (Cys) labeling revealed a specific redox shift in the catalytic Cys residue of peroxiredoxin 6 (Cys47) in the peripheral nerve from Sod1-/- mice. Innovation and Conclusion: These findings demonstrate that neuromuscular integrity, redox mechanisms, and pathways are differentially altered in nerve and muscle of Sod1-/- and mSod1KO mice. Results support the concept that impaired redox signaling, rather than oxidative damage, in peripheral nerve plays a key role in muscle loss in Sod1-/- mice and potentially sarcopenia during aging. Antioxid. Redox Signal. 28, 275-295.
Entities:
Keywords:
20S proteasome; mitochondria; myelin; peroxiredoxins 5 and 6; superoxide
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