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Alkaline-sensitive two-pore domain potassium channels form functional heteromers in pancreatic β-cells

Lamyaa Khoubza, Nicolas Gilbert, Eun‐Jin Kim, Franck C. Chatelain, Sylvain Féliciangéli, Sophie Abélanet, Dawon Kang, Florian Lesage, Delphine Bichet

2022Journal of Biological Chemistry11 citationsDOIOpen Access PDF

Abstract

Two-pore domain K + channels (K 2P channels), active as dimers, produce inhibitory currents regulated by a variety of stimuli. Among them, TWIK1-related alkalinization-activated K + channel 1 (TALK1), TWIK1-related alkalinization-activated K + channel 2 (TALK2), and TWIK1-related acid-sensitive K + channel 2 (TASK2) form a subfamily of structurally related K 2P channels stimulated by extracellular alkalosis. The human genes encoding these proteins are clustered at chromosomal region 6p21 and coexpressed in multiple tissues, including the pancreas. The question whether these channels form functional heteromers remained open. By analyzing single-cell transcriptomic data, we show that these channels are coexpressed in insulin-secreting pancreatic β-cells. Using in situ proximity ligation assay and electrophysiology, we show that they form functional heterodimers both upon heterologous expression and under native conditions in human pancreatic β-cells. We demonstrate that heteromerization of TALK2 with TALK1 or with TASK2 endows TALK2 with sensitivity to extracellular alkalosis in the physiological range. We further show that the association of TASK2 with TALK1 and TALK2 increases their unitary conductance. These results provide a new example of heteromerization in the K 2P channel family expanding the range of the potential physiological and pathophysiological roles of TALK1/TALK2/TASK2 channels, not only in insulin-secreting cells but also in the many other tissues in which they are coexpressed.

Topics & Concepts

ExtracellularBiophysicsPotassium channelCell biologyBiologyElectrophysiologyInhibitory postsynaptic potentialMembrane potentialHEK 293 cellsChemistryBiochemistryNeuroscienceGeneIon Transport and Channel RegulationIon channel regulation and functionPancreatic function and diabetes
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