Facts, noise and wishful thinking: muscle protein turnover in aging and human disuse atrophy

MJ Rennie, A Selby, P Atherton, K Smith… - … journal of medicine …, 2010 - Wiley Online Library
MJ Rennie, A Selby, P Atherton, K Smith, V Kumar, EL Glover, SM Philips
Scandinavian journal of medicine & science in sports, 2010Wiley Online Library
Surprisingly little is known about the mechanisms of muscle atrophy with aging and disuse
in human beings, in contrast to rodents, from which much has been extrapolated to explain
the human condition. However, this extrapolation is likely unwarranted because the time
course, extent of wasting, muscle fiber involvement and alterations of muscle protein
turnover are all quite different in rodent and human muscle. Furthermore, there is little
evidence that static indices of protein turnover represent dynamic changes and may be …
Surprisingly little is known about the mechanisms of muscle atrophy with aging and disuse in human beings, in contrast to rodents, from which much has been extrapolated to explain the human condition. However, this extrapolation is likely unwarranted because the time course, extent of wasting, muscle fiber involvement and alterations of muscle protein turnover are all quite different in rodent and human muscle. Furthermore, there is little evidence that static indices of protein turnover represent dynamic changes and may be misleading. With disuse there are reductions in the rate of muscle protein synthesis (MPS) large enough to explain the atrophic loss of muscle protein without a concomitant increase in proteolysis. In aging, there is no evidence that there are marked alterations in basal muscle protein turnover in healthy individuals but instead the ability to maintain muscle after feeding is compromised. This anabolic resistance is evident with physical inactivity, which exacerbates the inability to maintain muscle mass with aging. The main conclusion of this review is that in uncomplicated, non‐inflammatory disuse atrophy, the facilitative change causing loss of muscle mass is a depression of MPS, exacerbated by anabolic resistance during feeding, with possible adaptive depressions, rather than increases, of muscle proteolysis.
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