Activation of Ca2+-Dependent K+ Channels Contributes to Rhythmic Firing of Action Potentials in Mouse Pancreatic β Cells
Open Access
- 15 November 1999
- journal article
- Published by Rockefeller University Press in The Journal of general physiology
- Vol. 114 (6) , 759-770
- https://doi.org/10.1085/jgp.114.6.759
Abstract
We have applied the perforated patch whole-cell technique to β cells within intact pancreatic islets to identify the current underlying the glucose-induced rhythmic firing of action potentials. Trains of depolarizations (to simulate glucose-induced electrical activity) resulted in the gradual (time constant: 2.3 s) development of a small (60%) blocked by high (10–20 mM) concentrations of tetraethylammonium. Upon cessation of electrical stimulation, the current deactivated exponentially with a time constant of 6.5 s. This is similar to the interval between two successive bursts of action potentials. We propose that this Ca2+-activated K+ current plays an important role in the generation of oscillatory electrical activity in the β cell.Keywords
This publication has 44 references indexed in Scilit:
- Control of pulsatile 5‐HT/insulin secretion from single mouse pancreatic islets by intracellular calcium dynamicsThe Journal of Physiology, 1998
- Characterization of a Ca2+‐activated K+ current in insulin‐secreting murine βTC‐3 cellsThe Journal of Physiology, 1998
- Glucose-Induced Cycles of Insulin Release Can Be Resolved into Distinct Periods of Secretory ActivityBiochemical and Biophysical Research Communications, 1993
- Inositol trisphosphate-dependent periodic activation of a Ca2+-activated K+ conductance in glucose-stimulated pancreatic β-cellsNature, 1991
- Pancreatic B cells are bursting, but how?Trends in Neurosciences, 1991
- Specificity of tetraethylammonium and quinine for three K channels in insulin-secreting cellsThe Journal of Membrane Biology, 1991
- Simultaneous recordings of glucose dependent electrical activity and ATP‐regulated K+‐currents in isolated mouse pancreatic β‐cellsFEBS Letters, 1990
- ATP-sensitive K+ channels may control glucose-induced electrical activity in pancreatic B-cellsBiochemical and Biophysical Research Communications, 1988
- Significance of ionic fluxes and changes in membrane potential for stimulus-secretion coupling in pancreatic B-cellsCellular and Molecular Life Sciences, 1984
- Properties of the Ca-activated K+ channel in pancreatic β-cellsCell Calcium, 1983