Dissociation by methylamine of insulin release from glucose-induced electrical activity in isolated mouse islets of Langerhans

Abstract

The effect of methylamine on electrical activity and simultaneously measured insulin release was investigated in single perifused islets of normal mice. Methylamine, (2 mmol/L or 6 mmol/L) failed to affect beta-cell input resistance and only caused a modest and transient inhibition of electrical activity of islets exposed to 11.1 mmol/L glucose. Methylamine (2 mmol/L) inhibited insulin release evoked by a five-minute rise in glucose concentration from 5.6 to 22.2 mmol/L, even when the glucose-induced electrical activity remained unaltered. Methylamine, at 2 or 5 mmol/L, partially inhibited insulin release but failed to affect the continuous electrical activity in islets exposed throughout to 22.2 mmol/L glucose. At 10 mmol/L, methylamine reduced both insulin release and electrical activity. These data reinforce the idea that the glucose-induced changes in beta-cell membrane potential represent an early event in the process of stimulus-secretion coupling and can be dissociated from the subsequent process of insulin release.