Heteromeric KCNE2/KCNQ1 potassium channels in the luminal membrane of gastric parietal cells

Recently, we and others have shown that luminal K + recycling via KCNQ1 K + channels is required for gastric H + secretion. Inhibition of KCNQ1 by the chromanol 293B strongly diminished H + secretion. The present study aims at clarifying KCNQ1 subunit composition, subcellular localization, regulatio...

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Veröffentlicht in:The Journal of physiology 2004-12, Vol.561 (2), p.547-557
Hauptverfasser: Heitzmann, Dirk, Grahammer, Florian, von Hahn, Thomas, Schmitt‐Gräff, Annette, Romeo, Elisa, Nitschke, Roland, Gerlach, Uwe, Lang, Hans Jochen, Verrey, François, Barhanin, Jacques, Warth, Richard
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Sprache:eng
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Zusammenfassung:Recently, we and others have shown that luminal K + recycling via KCNQ1 K + channels is required for gastric H + secretion. Inhibition of KCNQ1 by the chromanol 293B strongly diminished H + secretion. The present study aims at clarifying KCNQ1 subunit composition, subcellular localization, regulation and pharmacology in parietal cells. Using in situ hybridization and immunofluorescence techniques, we identified KCNE2 as the β subunit of KCNQ1 in the luminal membrane compartment of parietal cells. Expressed in COS cells, hKCNE2/hKCNQ1 channels were activated by acidic pH, PIP 2 , cAMP and purinergic receptor stimulation. Qualitatively similar results were obtained in mouse parietal cells. Confocal microscopy revealed stimulation-induced translocation of H + ,K + -ATPase from tubulovesicles towards the luminal pole of parietal cells, whereas distribution of KCNQ1 K + channels did not change to the same extent. In COS cells the 293B-related substance IKs124 blocked hKCNE2/hKCNQ1 with an IC 50 of 8 n m . Inhibition of hKCNE1- and hKCNE3-containing channels was weaker with IC 50 values of 370 and 440 n m , respectively. In conclusion, KCNQ1 coassembles with KCNE2 to form acid-activated luminal K + channels of parietal cells. KCNQ1/KCNE2 is activated during acid secretion via several pathways but probably not by targeting of the channel to the membrane. IKs124 could serve as a leading compound in the development of subunit-specific KCNE2/KCNQ1 blockers to treat peptic ulcers.
ISSN:0022-3751
1469-7793
DOI:10.1113/jphysiol.2004.075168