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Inositol 1,4,5-Trisphosphate Receptor 1 Gain-of-Function Increases the Risk for Cardiac Arrhythmias in Mice and Humans

肌醇 受体 心脏病学 医学 内科学 函数增益 内分泌学 药理学 生物化学 表型 基因 化学
作者
Bo Sun,Mingke Ni,Yanhui Li,Zhenpeng Song,Hui Wang,Hai‐Lei Zhu,Jinhong Wei,Darrell D. Belke,Shitian Cai,Wenting Guo,Jinjing Yao,Shanshan Tian,John Paul Estillore,Ruiwu Wang,Mads T. Søndergaard,Malene Brohus,Palle Duun Rohde,Yongxin Mu,Alexander Vallmitjana,Raúl Benítez
出处
期刊:Circulation [Lippincott Williams & Wilkins]
卷期号:151 (12): 847-862 被引量:4
标识
DOI:10.1161/circulationaha.124.070563
摘要

BACKGROUND: Ca 2+ mishandling in cardiac Purkinje cells is a well-known cause of cardiac arrhythmias. The Purkinje cell resident inositol 1,4,5-trisphosphate receptor 1 (ITPR1) is believed to play an important role in Ca 2+ handling, and ITPR1 gain-of-function (GOF) has been implicated in cardiac arrhythmias. However, nearly all known disease-associated ITPR1 variants are loss-of-function and are primarily linked to neurological disorders. Whether ITPR1 GOF has pathological consequences, such as cardiac arrhythmias, is unclear. This study aimed to identify human ITPR1 GOF variants and determine the impact of ITPR1 GOF on Ca 2+ handling and arrhythmia susceptibility. METHODS: There are a large number of rare ITPR1 missense variants reported in open data repositories. Based on their locations in the ITPR1 channel structure, we selected and characterized 33 human ITPR1 missense variants from open databases and identified 21 human ITPR1 GOF variants. We generated a mouse model carrying a human ITPR1 GOF variant, ITPR1-W1457G (W1447G in mice). RESULTS: We showed that the ITPR1-W1447G +/- and recently reported ITPR1-D2594K +/- GOF mutant mice were susceptible to stress-induced ventricular arrhythmias. Confocal Ca 2+ and voltage imaging in situ in heart slices and Ca 2+ imaging and patch-clamp recordings of isolated Purkinje cells showed that ITPR1-W1447G +/- and ITPR1-D2594K +/- variants increased the occurrence of stress-induced spontaneous Ca 2+ release, delayed afterdepolarization, and triggered activity in Purkinje cells. To assess the potential role of ITPR1 variants in arrhythmia susceptibility in humans, we looked up a gene-based association study in the UK Biobank data set and identified 7 rare ITPR1 missense variants showing potential association with cardiac arrhythmias. Remarkably, in vitro functional characterization revealed that all these 7 ITPR1 variants resulted in GOF. CONCLUSIONS: Our studies in mice and humans reveal that enhanced function of ITPR1 , a well-known movement disorder gene, increases the risk for cardiac arrhythmias.
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