Abstract
Genes in the KCNE family encode single transmembrane domain ancillary subunits that co-assemble with voltage-gated potassium (Kv) channel alpha subunits to alter their function. KCNE2 (also known as MiRP1) is expressed in the heart, is associated with human cardiac arrhythmia, and modulates cardiac Kv alpha subunits hERG and KCNQ1 in vitro. KCNE2 and KCNQ1 are also expressed in parietal cells, leading to speculation they form a native channel complex there. Here, we disrupted the murine kcne2 gene and found that kcne2 (-/-) mice have a severe gastric phenotype with profoundly reduced parietal cell proton secretion, abnormal parietal cell morphology, achlorhydria, hypergastrinemia, and striking gastric glandular hyperplasia arising from an increase in the number of non-acid secretory cells. KCNQ1 exhibited abnormal distribution in gastric glands from kcne2 (-/-) mice, with increased expression in non-acid secretory cells. Parietal cells from kcne2 (+/-) mice exhibited normal architecture but reduced proton secretion, and kcne2 (+/-) mice were hypochlorhydric, indicating a gene-dose effect and a primary defect in gastric acid secretion. These data demonstrate that KCNE2 is essential for gastric acid secretion, the first genetic evidence that a member of the KCNE gene family is required for normal gastrointestinal function.
Highlights
(MiRPs, encoded by KCNE genes), contributes five known members to the human genome
In addition to its role in human heart, KCNQ1 is required for normal gastric acid secretion [10] and is proposed to provide a Kϩ ion efflux in parietal cells located in the gastric glands of the stomach to balance Kϩ ion influx through the gastric Hϩ/KϩATPase [11, 12]
The results demonstrate for the first time that KCNE2 is required for gastric acid secretion and the first genetic evidence of a role for any of the KCNE proteins in the gastrointestinal tract
Summary
(MiRPs, encoded by KCNE genes), contributes five known members to the human genome. MiRPs are single transmembrane domain subunits that co-assemble with Kv ␣ subunits, altering their gating, conductance, regulation, and pharmacology [2]. In addition to its role in human heart, KCNQ1 is required for normal gastric acid secretion [10] and is proposed to provide a Kϩ ion efflux in parietal cells located in the gastric glands of the stomach to balance Kϩ ion influx through the gastric Hϩ/KϩATPase [11, 12].
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