Abstract: | Measurements of the effects of NH3/NH4+ on glucose-induced electrical activity in beta-cells from microdissected mouse islets of Langerhans and on intracellular pH in single collagenase-isolated islets pre-loaded with a fluorescent pH probe were performed and are reported here. Application of NH3/NH4+ (15 mM) in the presence of glucose (11 mM) promptly hyperpolarized the beta-cell membrane, reduced input resistance by 60% and blocked electrical activity. These changes were paralleled by an increase in islet fluorescence indicative of a cytosolic pH increase. Removal of NH4Cl initially stimulated electrical activity, which returned to resting level with a time constant of 51 s. Concomitant with the removal of NH4Cl there was a drop in pHi followed by a slow return to resting level with a time constant of 83 s. The results suggest that the Ca2+]-dependent K+ channel in the beta-cell membrane is activated by a rise in cytosolic pH. |