Reversal of phosphorylase activation in muscle despite continued contractile activity

Abstract

During studies of the regulation of phosphorylase activity and glycogenolysis in contracting muscle, it was found that conversion of phosphorlyase beta to alpha is transient. Reversal of phosphorylase activation during both continuous and intermittent stimulation in the plantaris might, in part, have been due to development of fatigue. However, a complete reversal of phosphorylase activation was also evident within 5 min in the absence of fatigue in soleus muscles stimulated tetanically with 100-ms-long trains at a rate of 60/min. These muscles showed no significant decline in contractile force. Glycogen breakdown stopped in the soleus when phosphorylase reverted to the beta form, providing evidence that phosphorylase beta was not active. This lack of activity is probably explained by the finding that ATP and AMP concentrations changed little, while glucose 6-phosphate increased. Reversal of phosphorlyase activation soon after the onset of steady-state work may be a mechanism for conserving glycogen when the supply of other substrates is adequate to meet the muscles' energy needs.