Uncoupling of Cav1.2 From Ca2+-Induced Ca2+ Release and SK Channel Regulation in Pancreatic β-Cells

Abstract

We investigated the role of Cav1.2 in pancreatic β-cell function by expressing a Cav1.2 II-III loop/green fluorescent protein fusion in INS-1 cells (Cav1.2/II-III cells) to disrupt channel-protein interactions. Neither block of KATP channels nor stimulation of membrane depolarization by tolbutamide was different in INS-1 cells compared with Cav1.2/II-III cells, but whole-cell Cav current density was significantly increased in Cav1.2/II-III cells. Tolbutamide (200 μM) stimulated insulin secretion and Ca2+ transients in INS-1 cells, and Cav1.2/II-III cells were completely blocked by nicardipine (2 μM), but thapsigargin (1 μM) blocked tolbutamide-stimulated secretion and Ca2+transients only in INS-1 cells. Tolbutamide-stimulated endoplasmic reticulum [Ca2+] decrease was reduced in Cav1.2/II-III cells compared with INS-1 cells. However, Ca2+ transients in both INS-1 cells and Cav1.2/II-III cells were significantly potentiated by 8-pCPT-2′-O-Me-cAMP (5 μM), FPL-64176 (0.5 μM), or replacement of extracellular Ca2+ with Sr2+. Glucose (10 mM) + glucagon-like peptide-1 (10 nM) stimulated discrete spikes in [Ca2+]i in the presence of verapamil at a higher frequency in INS-1 cells than in Cav1.2/II-II cells. Glucose (18 mM) stimulated more frequent action potentials in Cav1.2/II-III cells and primary rat β-cells expressing the Cav1.2/II-II loop than in control cells. Further, apamin (1 μM) increased glucose-stimulated action potential frequency in INS-1 cells, but not Cav1.2/II-III cells, suggesting that SK channels were not activated under these conditions in Cav1.2/II-III loop-expressing cells. We propose the II-III loop of Cav1.2 as a key molecular determinant that couples the channel to Ca2+-induced Ca2+ release and activation of SK channels in pancreatic β-cells. © 2014 by the Endocrine Society.