Abstract
We made use of quin2 microfluorometry to observe the effects of nicorandil (2-nicotinamidoethyl nitrate) on cytosolic Ca++ concentrations [( Ca++]i) in rat aortic vascular smooth muscle cells in primary culture. Regardless of whether cells were at rest, in a state of Ca++-depletion or at K+-depolarization, nicorandil rapidly and dose-dependently decreased [Ca++]i to the lower steady-state level. Nicorandil dose-dependently inhibited norepinephrine-induced Ca++ transients in physiological salt solution containing 1 mM Ca++. Nicorandil accelerated the reduction of [Ca++]i observed when the cells were exposed to Ca++-free solution. When the cells were treated with nicorandil in Ca++-free solution, Ca++ transients induced by the first application of caffeine were little affected, but those induced by subsequent repetitive caffeine applications were reduced strongly and progressively. In contrast, pretreatment with nicorandil markedly inhibited Ca++ transients induced by the first application of norepinephrine, in Ca++-free solution. These effects of nicorandil on [Ca++]i and Ca++ transients were similar to those seen with nitroglycerin. The denitrated compound of nicorandil, N-(2-hydroxyethyl)nicotinamide, had no such effect. Thus, it is apparently the nitrate moiety of the chemical structure by which nicorandil actively and strongly reduces [Ca++]i in vascular smooth muscle cells. The reduction of [Ca++]i by nicorandil may result in a decrease in Ca++ in the norepinephrine-sensitive store; hence, the reduction of [Ca++]i elevation by norepinephrine.