The influence of immobilization and stretch on protein turnover of rat skeletal muscle.

Abstract

Changes in muscle size [in rats] were studied as a function of time after immobilization and in relation to the functional length of the muscle. When immobilized in a shortened position, the soleus and extensor digitorum longus muscles underwent atrophy, showing net losses of tissue protein. This atrophy appears to be caused by decreases in protein synthesis and increases in protein break-down. Average rates of protein synthesis and degradation were measured in immobilized and unrestrained control muscles by sensitive in vitro methods. When the 2 muscles were held in a lengthened position they grew compared with internal controls. This rapid growth was primarily due to increased rates of protein synthesis, which possibly arose from a more active involvement of ribosomes in translation. In keeping with these situations of growth, DNA synthesis, DNA and RNA concentrations were found to be higher in the immobilized tissues. Passive stretch and the development of isometric tension via the stretch reflex may be factors stimulating protein synthesis thus inducing the growth of muscles held in the lengthened state. Probably neither of these factors were experienced appreciably in the shortened position of restraint and the lower level of activity in these immobilized muscles led to their atrophy.