Abstract
Spinal cord injury (SCI) results in muscle atrophy, which contributes to a number of health problems, such as cardiovascular deconditioning, metabolic derangement, and osteoporosis. Electromyostimulation (EMS) holds the promise of ameliorating SCI-related muscle atrophy and, therefore, improving general health. To date, EMS training of long-term SCI subjects has resulted in some muscle hypertrophy but has fallen short of normalizing muscle mass. The aim of this study was to compare the molecular responses of vastus lateralis muscles from able-bodied (AB) and SCI subjects after acute bouts of EMS-induced resistance exercise to determine whether SCI muscles displayed some impairment in response. Analysis included mRNA markers known to be responsive to increased loading in rodent muscles. Muscles of AB and SCI subjects were subjected to EMS-stimulated exercise in two 30-min bouts, separated by a 48-h rest. Needle biopsy samples were obtained 24 h after the second exercise bout. In both the AB and SCI muscles, significant changes were seen in insulin-like growth factor binding proteins 4 and 5, cyclin-dependent kinase inhibitor p21, and myogenin mRNA levels. In AB subjects, the mRNA for mechano-growth factor was also increased. Before exercise, the total RNA concentration of the SCI muscles was less than that of the AB subjects but not different postexercise. The results of this study indicate that acute bouts of resistance exercise stimulate molecular responses in the skeletal muscles of both AB and SCI subjects. The responses seen in the SCI muscles indicate that the systems that regulate these molecular responses are intact, even after extended periods of muscle unloading.
Highlights
Title Acute molecular responses of skeletal muscle to resistance exercise in able-bodied and spinal cord-injured subjects
The aim of this study was to compare the molecular responses of vastus lateralis muscles from able-bodied (AB) and spinal cord injury (SCI) subjects after acute bouts of EMS-induced resistance exercise to determine whether SCI muscles displayed some impairment in response
The results of this study indicate that acute bouts of resistance exercise stimulate molecular responses in the skeletal muscles of both AB and SCI subjects
Summary
Title Acute molecular responses of skeletal muscle to resistance exercise in able-bodied and spinal cord-injured subjects. The absolute changes in mass seen in longterm SCI subjects tend to be relatively small as a result of the atrophied state of the muscle at the start of training In contrast to the relatively small effects of EMS in longterm SCI patients, we instituted EMS training ϳ48 wk after the injury and were able to increase muscle mass to a state more directly comparable to that of ambulatory subjects in only 8 wk [22]. Increased muscle loading can result in myofiber hypertrophy and alterations in the expression profile of contractile and metabolic proteins [12]. This has lead to the recognition that specific adaptations that occur in skeletal muscle appear to be regulated primarily by intrinsic mechanisms (e.g., local cellular mediators as opposed to central or circulating factors)
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