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LRRC8/VRAC anion channels enhance β-cell glucose sensing and insulin secretion.

Nature communications (2018-05-19)
Till Stuhlmann, Rosa Planells-Cases, Thomas J Jentsch
RÉSUMÉ

Glucose homeostasis depends critically on insulin that is secreted by pancreatic β-cells. Serum glucose, which is directly sensed by β-cells, stimulates depolarization- and Ca2+-dependent exocytosis of insulin granules. Here we show that pancreatic islets prominently express LRRC8A and LRRC8D, subunits of volume-regulated VRAC anion channels. Hypotonicity- or glucose-induced β-cell swelling elicits canonical LRRC8A-dependent VRAC currents that depolarize β-cells to an extent that causes electrical excitation. Glucose-induced excitation and Ca2+ responses are delayed in onset, but not abolished, in β-cells lacking the essential VRAC subunit LRRC8A. Whereas Lrrc8a disruption does not affect tolbutamide- or high-K+-induced insulin secretion from pancreatic islets, it reduces first-phase glucose-induced insulin secretion. Mice lacking VRAC in β-cells have normal resting serum glucose levels but impaired glucose tolerance. We propose that opening of LRRC8/VRAC channels increases glucose sensitivity and insulin secretion of β-cells synergistically with KATP closure. Neurotransmitter-permeable LRRC8D-containing VRACs might have additional roles in autocrine/paracrine signaling within islets.

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Histopaque®-1119, sterile-filtered, density: 1.119 g/mL
Sigma-Aldrich
Anticorps monoclonal anti-β-actine antibody produced in mouse, clone AC-74, purified immunoglobulin, buffered aqueous solution
Sigma-Aldrich
Gramicidin from Bacillus aneurinolyticus (Bacillus brevis), Linear polypeptide antibiotic complex. A mixture of gramicidins A, B, C, and D.