Developed twitch tension and action potentials were recorded in rabbit ventricular muscle in physiological saline at 30 degrees C stimulated at 0.5 Hz. Addition of 5 microM nifedipine to block Ca entry via Ca channels almost abolished twitches (to 2.5 +/- 0.7%, S.E.M., n = 10 of control). This suggests that under normal conditions Ca entry via Na-Ca exchange is insufficient to activate contractions. However, when muscles are first exposed to 4 microM acetylstrophanthidin to elevate [Na]i the same exposure to nifedipine only partially suppresses twitches (to 59 +/- 12% of the original control). This suggests that when [Na]i is elevated, Ca entry via the Na-Ca exchange may be adequate to partially activate contraction. From this result it is not clear whether Ca entry via Na-Ca exchange is sufficient to activate contraction directly or whether sarcoplasmic reticulum (SR) Ca release is required. When these experiments were carried out in the presence of 5 to 10 mM caffeine or 100 nM ryanodine similar results were obtained. That is, nifedipine still abolished contractions in the presence of caffeine or ryanodine (to 3.8 +/- 0.3% and 1.3 +/- 0.4%, respectively), but only partially inhibited contractions in the presence of caffeine + acetylstrophanthidin (to 21 +/- 5%) or ryanodine + acetylstrophanthidin (10 +/- 2%). Thus, it appears that even in the absence of a functional SR and with Ca current blocked, Na-Ca exchange might bring sufficient Ca into the cell to activate appreciable contractions, but only when [Na]i is elevated. Action potential duration is decreased by nifedipine and acetylstrophanthidin and is further decreased when nifedipine is added on top of acetylstrophanthidin. If this Ca entry is by an electrogenic 3 Na: 1 Ca exchange, Ca entry will be favored at more positive membrane potentials. If the action potential were not so abbreviated with these drugs, Na-Ca exchange might bring in more Ca and activate additional tension.