| Abstract: | Isoproterenol stimulates cellular accumulation of cyclic adenosine 3':5'-monophosphate (cyclic AMP) and produces a 2- to 4-fold increase in bidirectional potassium fluxes in turkey erythrocytes. Ouabain, which does not alter catecholamine-stimulated cellular cyclic AMP, inhibits potassium influx by 50 to 70%, does not alter potassium outflux or isoproterenol-stimulated potassium influx, but increases isoproterenol-stimulated potassium outflux. Stimulation of potassium transport by isoproterenol can be reproduced by adding cyclic AMP to the medium and is inhibited by propranolol or dichloroisoproterenol but not by phentolamine. Theophylline at concentrations which inhibit cyclic nucleotide phosphodiesterase in isolated turkey erythrocyte plasma membranes by greater than 90%, does not augment isoproterenol stimulation of cellular cyclic AMP or of potassium transport but does potentiate stimulation of potassium influx produced by adding cyclic AMP to the medium. Isoproterenol-stimulated cellular cyclic AMP increases steadily for at least 2 hours. Potassium transport, however, increases rapidly, becomes maximal after 20 to 30 min of incubation, and thereafter decreases progressively so that after 2 hours of incubation potassium fluxes are only slightly greater than for the control. Ouabain prolongs the duration of catecholamine-stimulated potassium influx and potassium outflux, reflecting its ability to relieve the refractoriness developed by turkey erythroyctes to endogenous cyclic AMP. |
