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From Hyper- to Hypoinsulinemia and Diabetes: Effect of KCNH6 on Insulin Secretion.

Cell reports (2018-12-28)
Jin-Kui Yang, Jing Lu, Sha-Sha Yuan, Asan, Xi Cao, Hai-Yan Qiu, Ting-Ting Shi, Fang-Yuan Yang, Qian Li, Cui-Ping Liu, Qian Wu, Yu-Hui Wang, Hai-Xia Huang, Abudurexiti Kayoumu, Jian-Ping Feng, Rong-Rong Xie, Xiao-Rong Zhu, Chang Liu, Guang-Ran Yang, Ming-Rong Zhang, Chun-Lan Xie, Chen Chen, Bo Zhang, George Liu, Xiu-Qing Zhang, Aimin Xu
ZUSAMMENFASSUNG

Glucose-stimulated insulin secretion from islet β cells is mediated by KATP channels. However, the role of non-KATP K+ channels in insulin secretion is largely unknown. Here, we show that a non-KATP K+ channel, KCNH6, plays a key role in insulin secretion and glucose hemostasis in humans and mice. KCNH6 p.P235L heterozygous mutation co-separated with diabetes in a four-generation pedigree. Kcnh6 knockout (KO) or Kcnh6 p.P235L knockin (KI) mice had a phenotype characterized by changing from hypoglycemia with hyperinsulinemia to hyperglycemia with insulin deficiency. Islets from the young KO mice had increased intracellular calcium concentration and increased insulin secretion. However, islets from the adult KO mice not only had increased intracellular calcium levels but also had remarkable ER stress and apoptosis, associated with loss of β cell mass and decreased insulin secretion. Therefore, dysfunction of KCNH6 causes overstimulation of insulin secretion in the short term and β cell failure in the long term.