Sarcoplasmic reticulum and excitation-contraction coupling at 20 and 10 �C in rainbow trout myocardium

Abstract

Isometric force and series membrane potential were recorded in isolated ventricular strips from rainbow trout at 20 and 10 °C. Preparations were electrically stimulated to contract at either 0.5 or 0.2 Hz. Single extrastimulations elicited a twitch force which diminished when the preceding diastole was shortened below the regular value. The stimulation following this extra stimulation evoked no potentiation of force. Apart from a marginal effect on the post extrasystolic force at 20 °C, ryanodine did not affect either of these responses or the steady-state force at 0.5 Hz. At 0.2 Hz the steady-state force was somewhat depressed by ryanodine at 20 but not at 10 °C. In contrast, extrastimulations preceded by diastoles of up to 1 h more than doubled extrasystolic force at 20 °C. This effect was removed by ryanodine. Both the potentiations and the effect of ryanodine were strongly reduced at 10 °C. Apparently, temperature acts on the release of Ca2+ from the sarcoplasmic reticulum, since Ca2+ seems to be taken up at both temperatures. Hence, at both 20 and 10 °C, the contractures evoked in a solution inhibiting sarcolemmal Ca2+ transfer and releasing Ca2+ from the sarcoplasmic reticulum were diminished by pretreatment with 15 mM caffeine. Action potential duration at 20 °C was less than half of that at 10 °C. At both temperatures it tended to be prolonged by periods of prolonged rest. No effect of ryanodine on action potential configuration was detected. The results suggest that trout myocardial sarcoplasmic reticulum, although powerful at unphysiologically low stimulation rates, does not partake in the beat-to-beat regulation of force at heart rates encountered in vivo.