Birefringence signal and early mechanical changes at normal and increased tonicities in frog skeletal muscle.

Simultaneous measurements of the time course of early mechanical events and the early large birefringence signal were performed during activation of isolated frog skeletal muscle fibres bathed in iso- and hypertonic media. A piezo-electric transducer was used which had a resonance frequency of 3.3 kHz and a sensitivity of 740 mV/mN (0.5 mV noise peak to peak) and a compliance of 0.6 mu/mN. The delay from stimulus onset to the onset of the birefringence signal was estimated to be 0.78 +/- 0.03 ms in normal Ringer solution at room temperature (20-23 degrees C). The beginning of latency relaxation appeared subsequent to the birefringence signal after a delay of 0.36 +/- 0.03 ms. Increasing the tonicity retarded the time course of both birefringence signal and latency relaxation. In solutions of twofold greater tonicity an increase in tension (denoted pre-relaxation contraction) was observed to precede latency relaxation. Pre-relaxation contraction became more prominent with increasing tonicity and appeared to coincide with its onset with the onset of the birefringence signal. The pre-relaxation contraction was shown not to be a stimulus artifact and was not reduced in amplitude by D 600 or calcium-poor solutions. Lowering the temperature to 2.2 degrees C in normal Ringer solution delayed the onsets of the birefringence signal and latency relaxation, and increased the interval between the two signals but did not result in a tension increase before latency relaxation. The coincidence of the birefringence signal onset with the onset of pre-relaxation contraction suggests a common aetiology. The aetiology remains speculative but seems to require hypertonicity for expression of the mechanical signal.