Abstract
Previous studies have shown a significant increase in the mitochondrial generation of hydrogen peroxide (H2O2) and other peroxides in recently denervated muscle fibers. The mechanisms for generation of these peroxides and how the muscle responds to these peroxides are not fully established. The aim of this work was to determine the effect of denervation on the muscle content of proteins that may contribute to mitochondrial peroxide release and the muscle responses to this generation. Denervation of the tibialis anterior (TA) and extensor digitorum longus (EDL) muscles in mice was achieved by surgical removal of a small section of the peroneal nerve prior to its entry into the muscle. An increase in mitochondrial peroxide generation has been observed from 7 days and sustained up to 21 days following denervation in the TA muscle fibers. This increased peroxide generation was reduced by incubation of skinned fibers with inhibitors of monoamine oxidases, NADPH oxidases or phospholipase A2 enzymes and the muscle content of these enzymes together with peroxiredoxin 6 were increased following denervation. Denervated muscle also showed significant adaptations in the content of several enzymes involved in the protection of cells against oxidative damage. Morphological analyses indicated a progressive significant loss of muscle mass in the TA muscle from 7 days up to 21 days following denervation due to fiber atrophy but without fiber loss. These results support the possibility that, at least initially, the increase in peroxide production may stimulate adaptations in an attempt to protect the muscle fibers, but that these processes are insufficient and the increased peroxide generation over the longer term may activate degenerative and atrophic processes in the denervated muscle fibers.
Highlights
Loss of muscle mass occurs during aging and is known as sarcopenia
Previous work from our group and others has shown that denervation of muscle leads to a large increase in the release of H2O2 and lipid peroxides from muscle mitochondria over a short time course [7,8,10]
We extended the time course of denervation in order to examine the longer-term effect of muscle denervation on peroxide release and proteins that regulate redox homeostasis in muscle fibers
Summary
Loss of muscle mass occurs during aging and is known as sarcopenia. This has a significant impact on health and is caused by several factors, among which impairment of the neuromuscular system appears to play a primary role. The efficiency of this cycle appears to decline with a characteristic loss of neuromuscular junction (NMJ) structure (the synapse between a motor neuron and muscle fiber), motor units (the unit consisting of a single motor neuron and the muscle fibers it innervates), muscle mass (due to both the loss of motor units and individual muscle fiber atrophy) and together with an increase in neuronal axon sprouting with preferential re-innervation of slow-twitch muscle fibers [1,2,3,4]. The reasons for the age-related changes in muscle fiber denervation and disrupted NMJ innervation and function are not currently known
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