OBJECTIVE: The aim was to study the ionic basis of the chronotropic effects of bath applied acetylcholine and vagal stimulation on the rabbit sinoatrial node. METHODS: The chronotropic effect of bath applied acetylcholine was measured in single cells and small multicellular preparations from the rabbit sinoatrial node and the chronotropic effect of postganglionic vagal stimulation was measured in the intact sinoatrial node. The roles of the hyperpolarisation activated current, i(f), the acetylcholine activated potassium current, iK,ACh, and the L-type calcium current, iCa, were investigated by blocking the currents with 1-2 mM Cs+ or 10(-6) M UL-FS49, 0.2-1.0 mM Ba2+, and 6 x 10(-6) M nifedipine, respectively. RESULTS: Under control conditions, small multicellular preparations were approximately two orders of magnitude less sensitive to bath applied acetylcholine than single cells. However, after block of acetylcholinesterase by eserine in small multicellular preparations the sensitivities of the two types of preparation were approximately the same. Block of i(f) either had no discernible effect or increased the chronotropic effect of bath applied acetylcholine on single cells or small multicellular preparations, whereas partial block of iK,ACh reduced it substantially. Similarly, block of i(f) did not suppress the initial slowing of spontaneous action potentials by vagal stimulation, whereas partial block of iK,ACh reduced it. The hyperpolarisation of the arrested sinoatrial node in response to vagal stimulation was also substantially reduced by block of iK,ACh. Partial block of iCa caused large decreases in the action potential amplitude and maximum diastolic potential, but little decrease in the rate of spontaneous action potentials, and therefore did not mimic the effect of acetylcholine. CONCLUSIONS: The chronotropic effects of bath applied acetylcholine and vagal stimulation are not principally the result of a suppression of i(f) or iCa, whereas the activation of iK,ACh may play an important role.
OBJECTIVE: The aim was to study the ionic basis of the chronotropic effects of bath applied acetylcholine and vagal stimulation on the rabbit sinoatrial node. METHODS: The chronotropic effect of bath applied acetylcholine was measured in single cells and small multicellular preparations from the rabbit sinoatrial node and the chronotropic effect of postganglionic vagal stimulation was measured in the intact sinoatrial node. The roles of the hyperpolarisation activated current, i(f), the acetylcholine activated potassium current, iK,ACh, and the L-type calcium current, iCa, were investigated by blocking the currents with 1-2 mM Cs+ or 10(-6) M UL-FS49, 0.2-1.0 mM Ba2+, and 6 x 10(-6) M nifedipine, respectively. RESULTS: Under control conditions, small multicellular preparations were approximately two orders of magnitude less sensitive to bath applied acetylcholine than single cells. However, after block of acetylcholinesterase by eserine in small multicellular preparations the sensitivities of the two types of preparation were approximately the same. Block of i(f) either had no discernible effect or increased the chronotropic effect of bath applied acetylcholine on single cells or small multicellular preparations, whereas partial block of iK,ACh reduced it substantially. Similarly, block of i(f) did not suppress the initial slowing of spontaneous action potentials by vagal stimulation, whereas partial block of iK,ACh reduced it. The hyperpolarisation of the arrested sinoatrial node in response to vagal stimulation was also substantially reduced by block of iK,ACh. Partial block of iCa caused large decreases in the action potential amplitude and maximum diastolic potential, but little decrease in the rate of spontaneous action potentials, and therefore did not mimic the effect of acetylcholine. CONCLUSIONS: The chronotropic effects of bath applied acetylcholine and vagal stimulation are not principally the result of a suppression of i(f) or iCa, whereas the activation of iK,ACh may play an important role.
Authors: Ricardo A Navarro-Polanco; Eloy G Moreno Galindo; Tania Ferrer-Villada; Marcelo Arias; J Ryan Rigby; José A Sánchez-Chapula; Martin Tristani-Firouzi Journal: J Physiol Date: 2011-01-31 Impact factor: 5.182
Authors: Eloy G Moreno-Galindo; José A Sánchez-Chapula; Frank B Sachse; J Alberto Rodríguez-Paredes; Martin Tristani-Firouzi; Ricardo A Navarro-Polanco Journal: J Physiol Date: 2011-01-31 Impact factor: 5.182