cardiovascular-agents and barium-chloride

The participation of acetylcholine-activated potassium current (I(K,ACh)) and hyperpolarization-activated pacemaker current (I(f)) in vagal bradycardia were examined using vagally-innervated preparations of guinea-pig atria. Preparations were maintained in Krebs-Henseleit solution (36 degrees C). Before treatment, trains of vagal stimuli (10 s at 2, 5 and 10 Hz) produced graded bradycardias displaying rapid onset and offset. Tertiapin-Q (300 nM), which blocks I(K,ACh), had no effect on baseline atrial rate. In tertiapin-Q, vagal bradycardia displayed a gradual onset and offset, with a peak response ~50% of that recorded in control conditions. Cumulative addition of 1 mM ZD7288 (blocker of I(f)) caused atrial rate to fall by ~60%, but had no further effect on the amplitude of the vagal bradycardia, while response onset and offset became slightly faster. From these observations, we argue that (i) vagal bradycardia was attributable primarily to activation of I(K,ACh), (ii) vagal modulation of I(f) had a minor influence on the rate of onset and offset of bradycardia, and (iii) removal of the influence of I(K,ACh) unmasked a slow response, of undetermined origin, to vagal stimulation. In a separate set of experiments we compared the effects of 1 mM Ba(2+) and 300 nM tertiapin-Q on vagal bradycardia. Ba(2+) reduced baseline atrial rate and the response to vagal stimulation. Subsequent cumulative addition of tertiapin-Q had no additional effect on baseline atrial rate, but caused further reduction in the amplitude of vagal bradycardia, suggesting that 1 mM Ba(2+) did not achieve a complete block of I(K,ACh) in this preparation.

Topics: Action Potentials; Analysis of Variance; Animals; Barium Compounds; Bee Venoms; Cardiovascular Agents; Chlorides; Electric Stimulation; Female; Guinea Pigs; Heart Rate; In Vitro Techniques; Male; Pacemaker, Artificial; Potassium Channel Blockers; Pyrimidines; Vagus Nerve

The mechanism by which the bradycardiac agent UL-FS 49 blocks the if pacemaker current was investigated in sheep Purkinje fibres using the two microelectrode voltage-clamp technique. If was activated by 1 s pulses applied between -30 mV and -120 mV at 0.4 Hz in a modified Tyrode solution containing BaCl2 and MnCl2, and with TRIS replacing most of the Na+. UL-FS 49 caused an exponential decline of the if current amplitude during a train of pulses. Both the rate and extent of the if reduction increased with drug concentration, without there being a resting blockade. Recovery from blockade followed a single exponential time course during prolonged hyperpolarizations. The recovery rate was extremely slow and increased with more negative voltages, as did the extent of steady state recovery from blockade. A frequency-dependent reduction of the diastolic depolarization rate resulted from a use-dependent blockade of the pacemaker current.

Topics: Animals; Barium; Barium Compounds; Benzazepines; Cardiovascular Agents; Chlorides; Dose-Response Relationship, Drug; Electrophysiology; Heart; In Vitro Techniques; Magnesium Chloride; Membrane Potentials; Microelectrodes; Purkinje Fibers; Sheep