机构:[1]Chinese Univ Hong Kong, CUHK SJTU Joint Ctr Human Reprod & Related Dis, Minist Educ China,Fac Med,Sch Biomed Sci, Epithelial Cell Biol Res Ctr,Key Lab Regenerat Me, Hong Kong, Hong Kong, Peoples R China[2]Sichuan Univ, Minist Educ China,West China Univ Hosp 2, Key Lab Obstet Gynecol & Pediat Dis & Birth Defe, Sichuan Univ Chinese Univ Hong Kong Joint Lab Rep, Chengdu 610041, Peoples R China[3]Chinese Univ Hong Kong, Fac Med, Lui Che Woo Inst Innovat Med, Hong Kong, Hong Kong, Peoples R China[4]Capital Med Univ, Beijing Tongren Hosp, Dept Endocrinol, Beijing 100730, Peoples R China临床科室内分泌科首都医科大学附属北京同仁医院首都医科大学附属同仁医院[5]Keio Univ, Sch Med, Dept Pharmacol, Shinjuku Ku, Tokyo 1608582, Japan
The cause of insulin insufficiency remains unknown in many diabetic cases. Up to 50% adult patients with cystic fibrosis (CF), a disease caused by mutations in the gene encoding the CF transmembrane conductance regulator (CFTR), develop CF-related diabetes (CFRD) with most patients exhibiting insulin insufficiency. Here we show that CFTR is a regulator of glucose-dependent electrical acitivities and insulin secretion in beta-cells. We demonstrate that glucose elicited whole-cell currents, membrane depolarization, electrical bursts or action potentials, Ca2+ oscillations and insulin secretion are abolished or reduced by inhibitors or knockdown of CFTR in primary mouse beta-cells or RINm5F beta-cell line, or significantly attenuated in CFTR mutant (DF508) mice compared with wild-type mice. VX-809, a newly discovered corrector of DF508 mutation, successfully rescues the defects in DF508 beta-cells. Our results reveal a role of CFTR in glucose-induced electrical activities and insulin secretion in beta-cells, shed light on the pathogenesis of CFRD and possibly other idiopathic diabetes, and present a potential treatment strategy.
基金:
National Major Basic Research Program of
China (2012CB944903, 2013CB967404, 2013CB967401, 2013CB967403), the Focused
Investment Scheme of the Chinese University of Hong Kong (1907020), Lui Che
Woo Foundation (SMART Program 8303201, 8303202 and 8303212) and the K.S. Lo
Foundation (7104494).
第一作者机构:[1]Chinese Univ Hong Kong, CUHK SJTU Joint Ctr Human Reprod & Related Dis, Minist Educ China,Fac Med,Sch Biomed Sci, Epithelial Cell Biol Res Ctr,Key Lab Regenerat Me, Hong Kong, Hong Kong, Peoples R China
通讯作者:
通讯机构:[1]Chinese Univ Hong Kong, CUHK SJTU Joint Ctr Human Reprod & Related Dis, Minist Educ China,Fac Med,Sch Biomed Sci, Epithelial Cell Biol Res Ctr,Key Lab Regenerat Me, Hong Kong, Hong Kong, Peoples R China[2]Sichuan Univ, Minist Educ China,West China Univ Hosp 2, Key Lab Obstet Gynecol & Pediat Dis & Birth Defe, Sichuan Univ Chinese Univ Hong Kong Joint Lab Rep, Chengdu 610041, Peoples R China[3]Chinese Univ Hong Kong, Fac Med, Lui Che Woo Inst Innovat Med, Hong Kong, Hong Kong, Peoples R China
推荐引用方式(GB/T 7714):
Guo Jing Hui,Chen Hui,Ruan Ye Chun,et al.Glucose-induced electrical activities and insulin secretion in pancreatic islet beta-cells are modulated by CFTR[J].NATURE COMMUNICATIONS.2014,5:doi:10.1038/ncomms5420.
APA:
Guo, Jing Hui,Chen, Hui,Ruan, Ye Chun,Zhang, Xue Lian,Zhang, Xiao Hu...&Chan, Hsiao Chang.(2014).Glucose-induced electrical activities and insulin secretion in pancreatic islet beta-cells are modulated by CFTR.NATURE COMMUNICATIONS,5,
MLA:
Guo, Jing Hui,et al."Glucose-induced electrical activities and insulin secretion in pancreatic islet beta-cells are modulated by CFTR".NATURE COMMUNICATIONS 5.(2014)
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