Exercise and recovery in frog muscle: metabolism of PCr, adenine nucleotides, and related compounds.

The effects of exercise (swimming), fatigue, and recovery on the intracellular pH (pHi), energy-rich phosphates, and related metabolites were studied in the gastrocnemius muscle of common frogs (Rana temporaria) at 20 degrees C. Exercise caused a rapid decrease in the content of phosphocreatine (PCr) and a corresponding increase in that of Pi. The ATP level remained virtually constant for 1 min; its precipitous decrease during the following minute was associated with a rise in the contents of inosine 5'-monophosphate (IMP) and NH4+, indicating a marked activation of AMP deaminase. Five minutes of swimming caused severe fatigue, which was correlated with decreases in muscle PCr (-85%), ATP (-42%), and pHi (-0.8 units). Recovery appeared almost complete within 2 h, and the frogs were then induced to swim again. During the initial 10 s of this second exercise, ATP synthesis was as high as in the first exercise, but the rate decreased more rapidly between 10 and 60 s, thus indicating that repeated exercise caused increased metabolic stress. IMP formation in working muscle was not strictly correlated with the pHi or the tissue contents of Pi, AMP and ADP, although from studies in vitro AMP deaminase is known to be modulated by these parameters.