Effects of nanomolar to submillimolar carteolol on noradrenaline release in the absence and presence of uptake1 and uptake2 blockers in guinea pig pulmonary arteries.

Abstract

Effects of nanomolar to submillimolar carteolol, a non-selective beta-antagonist, on the evoked release at 1 Hz and the spontaneous release in the absence and presence of uptake1 and uptake2 blockers were studied in pulmonary arteries, isolated from guinea pigs, and then preloaded with [3H]noradrenaline. dl-Carteolol at 10(-8), 10(-7) and 10(-6) M applied at the increasing concentrations inhibited the evoked [3H]-release in untreated arteries and in desipramine and corticosterone-treated arteries. The spontaneous [3H]-release slightly but significantly increased or tended to increase in untreated arteries. dl-Carteolol at 10(-5) and 10(-4) M clearly and concentration-dependently increased the spontaneous [3H]-release in untreated and cocaine-treated arteries. This increase was markedly inhibited by further pretreatment with normetanephrine. The evoked [3H]-release was not altered by dl-carteolol at 10(-5) M, but increased at 10(-4) M. This increase was not modified by cocaine and by cocaine and normetanephrine. d-Carteolol at 10(-5) and 10(-4) M produced effects similar to those of dl-carteolol. Nanomolar to micromolar dl-carteolol inhibits the evoked [3H]-release, which supports our previous conclusion that this inhibition is due to blockade of tonically functioning presynaptic beta 2-adrenoceptors. Carteolol at the higher concentrations seems to become a substrate for an uptake2 mechanism and to produce an unknown sympathomimetic activity in guinea pig pulmonary arteries.