Effects of caffeine and ryanodine on depression of post-rest tension development produced by Bay K 8644 in canine ventricular muscle.

1. Post-rest inotropy in canine ventricular myocardium has proved a useful indicator of sarcoplasmic reticular calcium release. This phenomenon is converted to rest depression by the calcium channel activator (agonist), Bay K 8644 as well as other chemically diverse agents such as caffeine and ryanodine. 2. Rapid cooling contractures and post-rest contraction amplitude were used as independent measures of sarcoplasmic reticular calcium content and release. Simultaneous recordings of transmembrane action potentials and their accompanying contractions were obtained to determine the association between electrophysiological and mechanical events. The present study was designed to elucidate the mechanism by which Bay K 8644, caffeine and ryanodine alter force production after variable periods of rest. 3. Bay K 8644 (1 microM) increased steady state contraction in response to a constant train of stimulation, caused rest-depression after 2 and 8 min rest, prolonged action potential duration and increased action potential plateau amplitude. Augmented steady state tension was not accompanied by any change in time to peak tension or rapid cooling contracture amplitude. However, the post-rest rapid cooling contracture was greatly diminished compared to that observed prior to Bay K 8644 treatment. 4. Caffeine (3 and 5 mM) caused rest-depression with an increase in steady state contraction amplitude. Along with this there was a slight decrease in action potential duration and plateau amplitude and an increase in time to peak tension. The rapid cooling contractures were virtually abolished at all conditioning intervals. The effect of caffeine on twitch tension and cooling contracture is consistent with the ability of this compound to inhibit calcium sequestration by the sarcoplasmic reticulum. 5. A combination of Bay K 8644 and caffeine caused significantly less rest-depression than that seen with Bay K 8644 alone. The augmented twitch tension was accompanied by a long time to peak tension and action potential duration. However, there was no increase in the amplitude of the rapid cooling contracture, either after a regular train of stimulation or after rest, compared to that seen after Bay K 8644. 6. Ryanodine (10 nM), produced rest-depression, reduced steady state twitch tension and augmented the rest-depression produced by Bay K 8644. The steady state rapid cooling contracture remained unchanged when both agents were present simultaneously, while the post-rest rapid cooling contracture was significantly depressed compared to that observed with Bay K 8644 alone. 7. Bay K 8644 and ryanodine appear to have similar actions with respect to promoting diastolic loss of calcium from the sarcoplasmic reticulum. Although caffeine also decreases post-rest potentiation, it antagonizes rest-depression caused by Bay K 8644. The data from these experiments suggest that this reversal is a result of depressed intracellular calcium buffering and enhanced myofilament sensitivity produced by caffeine in the presence of increased transmembrane calcium influx promoted by Bay K 8644.