Furosemide and Ca 2+ affect 86Rb + efflux from pancreatic β-cells by different mechanisms

Abstract

The interaction between furosemide, calcium and d-glucose on the 86Rb + efflux from β-cell-rich mouse pancreatic islets was investigated in a perifusion system with high temporal resolution. Raising the glucose concentration from 4 to 20 mM induced an initial decrease in 86Rb + efflux, which was followed by a steep increase and then a secondary decrease. Removal of extracellular calcium increased the 86Rb + efflux at 4 mM d-glucose but reduced it at 20 mM. The initial biphasic changes in 86Rb + efflux induced by 20 mM d-glucose were inhibited by calcium deficiency. Furosemide (100 μM) reduced the 86Rb + efflux rate both at 4 and 20 mM d-glucose and the magnitudes appeared to be similar at either glucose concentration. Furosemide (100 μM) reduced the glucose-induced (10 mM) 45Ca + uptake but did not affect the basal (3 mM d-glucose) 45Ca + uptake. However, the ability of furosemide (100 μM) to reduce the 86Rb + efflux at a high glucose concentration (20 mM) was independent of extracellular calcium. The inhibitory effects of furosemide and calcium deficiency on the 86Rb + efflux rate appeared to be additive. It is concluded that the effect of furosemide on 86Rb + efflux is not secondary to reduced calcium uptake and that the effects of furosemide and calcium deficiency are mediated by different mechanisms. The effect of furosemide is compatible with inhibition of loop diuretic-sensitive co-transport of Na +, K + and Cl − and the effect of calcium deficiency with reduced activity of calcium-regulated potassium channels.