Abstract

1. 1. Effects of caffeine on the action potentials and the membrane currents in spontaneously beating rabbit sino-atrial (SA) node cells were examined using a two-microelectrode technique. 2. 2. Cumulative administrations of caffeine (1–10 mM) caused a negative chronotropic effect in a concentration-dependent manner, which was not modified by atropine (0.1 μM). At 10 mM, caffeine increased the amplitude and prolonged the duration of action potentials significantly; the other parameters were unaffected. 3. 3. In 3 of 16 preparations, caffeine (5 mM) elicited arrhythmia. At high Ca 2+ (8.1 mM), caffeine (5 mM) increased the incidence of arrhythmia. 4. 4. Caffeine (0.5–10 mM) enhanced the slow inward current, but at 10 mM decreased the enhanced peak current by 5 mM. The hyperpolarization-activated inward current was also enhanced by caffeine, but 10 mM caffeine decreased the current peak as compared with that at 5 mM. In addition, caffeine inhibited the delayed rectifying outward current in a concentration-dependent manner, accompanied by a depressed activation curve without any shift in the half-maximum activation voltage. 5. 5. Caffeine elevated the cytoplasmic Ca 2+ level in the SA node cells loaded with Ca 2+-sensitive fluorescent dye (fura-2). 6. 6. These results suggest that caffeine enhances and/or inhibits the ionic currents and elicits arrhythmia due to the induction of cellular calcium overload.

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