Liraglutide increases islet Ca oscillation frequency and insulin secretion by activating hyperpolarization-activated cyclic nucleotide-gated channels.

Aim: To determine whether hyperpolarization-activated cyclic nucleotide-gated (HCN) channels impact glucagon-like peptide-1 (GLP-1) receptor (GLP-1R) modulation of islet Ca handling and insulin secretion.

Methods: The impact of liraglutide (GLP-1 analogue) on islet Ca handling, HCN currents and insulin secretion was monitored with fluorescence microscopy, electrophysiology and enzyme immunoassays, respectively. Furthermore, liraglutide-mediated β-to-δ-cell cross-communication was assessed following selective ablation of either mouse islet δ or β cells.

Glucose-mediated inhibition of calcium-activated potassium channels limits α-cell calcium influx and glucagon secretion.

Pancreatic α-cells exhibit oscillations in cytosolic Ca (Ca), which control pulsatile glucagon (GCG) secretion. However, the mechanisms that modulate α-cell Ca oscillations have not been elucidated. As β-cell Ca oscillations are regulated in part by Ca-activated K (K) currents, this work investigated the role of K in α-cell Ca handling and GCG secretion.

TALK-1 reduces delta-cell endoplasmic reticulum and cytoplasmic calcium levels limiting somatostatin secretion.

Objective: Single-cell RNA sequencing studies have revealed that the type-2 diabetes associated two-pore domain K (K2P) channel TALK-1 is abundantly expressed in somatostatin-secreting δ-cells. However, a physiological role for TALK-1 in δ-cells remains unknown. We previously determined that in β-cells, K flux through endoplasmic reticulum (ER)-localized TALK-1 channels enhances ER Ca leak, modulating Ca handling and insulin secretion.

Cytokine-mediated changes in K channel activity promotes an adaptive Ca response that sustains β-cell insulin secretion during inflammation.

Cytokines present during low-grade inflammation contribute to β-cell dysfunction and diabetes. Cytokine signaling disrupts β-cell glucose-stimulated Ca influx (GSCI) and endoplasmic reticulum (ER) Ca ([Ca]) handling, leading to diminished glucose-stimulated insulin secretion (GSIS). However, cytokine-mediated changes in ion channel activity that alter β-cell Ca handling remain unknown.

TALK-1 channels control β cell endoplasmic reticulum Ca homeostasis.

Ca handling by the endoplasmic reticulum (ER) serves critical roles in controlling pancreatic β cell function and becomes perturbed during the pathogenesis of diabetes. ER Ca homeostasis is determined by ion movements across the ER membrane, including K flux through K channels. We demonstrated that K flux through ER-localized TALK-1 channels facilitated Ca release from the ER in mouse and human β cells.