Phosphocreatine as a marker of contractile activity in single muscle fibres

ATP and phosphocreatine (PCr) were measured in randomly selected single fibres from control, 1- and 8-day low-frequency-stimulated rabbit tibialis anterior muscles. The fibres were classified according to their myosin heavy chain (MHC) complement as type I, IIA or IID. In 1-day stimulated muscle, which has previously been shown to exhibit a steep decline in force output, two fibre populations could be distinguished according to either normal or markedly depressed PCr levels. The fibre population exhibiting normal PCr levels encompassed a major fraction (65%) of type IID fibres and a minor fraction (35%) of IIA fibres. The population with reduced PCr levels comprised type I fibres (congruent to 50% reduced), the majority of type IIA fibres (congruent to 80% reduced), and a minor fraction of type IID fibres (congruent to 70% reduced). Levels of ATP were unaltered in type I and IIA fibres, but were congruent to 20% reduced in those IID fibres that exhibited low PCr levels. Assuming that those fibres that displayed reduced PCr levels were contracting, the IID and IIA fibres with normal PCr levels were regarded as metabolically recovering, non-contracting fibres. As previously shown, these fibres are transiently refractory during the early phase of low-frequency stimulation. After 8 days of chronic low-frequency stimulation, when force was shown to rise again, most fibres appeared more uniform with regard to reduced PCr and ATP levels. Our results suggest that PCr can be used as a sensitive measure of the degree of activity in single-fibre studies.