The ryanodine receptor store-sensing gate controls Ca 2+  waves and Ca 2+ -triggered arrhythmias

Chen, Wenqian; Wang, Ruiwu; Chen, Biyi; Zhong, Xiaowei; Kong, Huihui; Bai, Yunlong; Zhou, Qiang; Xie, Cuihong; Zhang, Jingqun; Guo, Ang; Tian, Xixi; Jones, Peter P; O'Mara, Megan; Liu, Yingjie; Mi, Tao; Zhang, Lin; Bolstad, Jeff; Semeniuk, Lisa; Cheng, Hongqiang; Zhang, Jianlin; Chen, Ju; Tieleman, D. Peter; Gillis, Anne M; Duff, Henry J; Fill, Michael; Song, Long-Sheng; Chen, S R Wayne

The ryanodine receptor store-sensing gate controls Ca 2+ waves and Ca 2+ -triggered arrhythmias

dc.contributor.author	Chen, Wenqian
dc.contributor.author	Wang, Ruiwu
dc.contributor.author	Chen, Biyi
dc.contributor.author	Zhong, Xiaowei
dc.contributor.author	Kong, Huihui
dc.contributor.author	Bai, Yunlong
dc.contributor.author	Zhou, Qiang
dc.contributor.author	Xie, Cuihong
dc.contributor.author	Zhang, Jingqun
dc.contributor.author	Guo, Ang
dc.contributor.author	Tian, Xixi
dc.contributor.author	Jones, Peter P
dc.contributor.author	O'Mara, Megan
dc.contributor.author	Liu, Yingjie
dc.contributor.author	Mi, Tao
dc.contributor.author	Zhang, Lin
dc.contributor.author	Bolstad, Jeff
dc.contributor.author	Semeniuk, Lisa
dc.contributor.author	Cheng, Hongqiang
dc.contributor.author	Zhang, Jianlin
dc.contributor.author	Chen, Ju
dc.contributor.author	Tieleman, D. Peter
dc.contributor.author	Gillis, Anne M
dc.contributor.author	Duff, Henry J
dc.contributor.author	Fill, Michael
dc.contributor.author	Song, Long-Sheng
dc.contributor.author	Chen, S R Wayne
dc.date.accessioned	2015-12-10T23:11:15Z
dc.date.issued	2014
dc.date.updated	2015-12-10T09:20:58Z
dc.description.abstract	Spontaneous Ca 2+ release from intracellular stores is important for various physiological and pathological processes. In cardiac muscle cells, spontaneous store overload-induced Ca 2+ release (SOICR) can result in Ca 2+ waves, a major cause of ventricular tachyarrhythmias (VTs) and sudden death. The molecular mechanism underlying SOICR has been a mystery for decades. Here we show that a point mutation, E4872A, in the helix bundle crossing region (the proposed gate) of the cardiac ryanodine receptor (RyR2) completely abolishes luminal, but not cytosolic, Ca 2+ activation of RyR2. The introduction of metal-binding histidines at this site converts RyR2 into a luminal Ni 2+-gated channel. Mouse hearts harboring a heterozygous RyR2 mutation at this site (E4872Q) are resistant to SOICR and are completely protected against Ca 2+-triggered VTs. These data show that the RyR2 gate directly senses luminal (store) Ca 2+, explaining the regulation of RyR2 by luminal Ca 2+, the initiation of Ca 2+ waves and Ca 2+-triggered arrhythmias. This newly identified store-sensing gate structure is conserved in all RyR and inositol 1,4,5-trisphosphate receptor isoforms.
dc.identifier.issn	1078-8956
dc.identifier.uri	http://hdl.handle.net/1885/63730
dc.publisher	Nature Publishing Group
dc.source	Nature Medicine
dc.title	The ryanodine receptor store-sensing gate controls Ca 2+ waves and Ca 2+ -triggered arrhythmias
dc.type	Journal article
local.bibliographicCitation.issue	2
local.bibliographicCitation.lastpage	192
local.bibliographicCitation.startpage	184
local.contributor.affiliation	Chen, Wenqian, University of Calgary
local.contributor.affiliation	Wang, Ruiwu, Department of Physiology and Pharmacology
local.contributor.affiliation	Chen, Biyi, University of Iowa Carver College of Medicine
local.contributor.affiliation	Zhong, Xiaowei, University of Calgary
local.contributor.affiliation	Kong, Huihui, University of Calgary
local.contributor.affiliation	Bai, Yunlong, University of Calgary
local.contributor.affiliation	Zhou, Qiang, University of Calgary
local.contributor.affiliation	Xie, Cuihong, University of Calgary
local.contributor.affiliation	Zhang, Jingqun, Rush University Medical Center
local.contributor.affiliation	Guo, Ang, University of Iowa Carver College of Medicine
local.contributor.affiliation	Tian, Xixi, University of Calgary
local.contributor.affiliation	Jones, Peter P, University of Calgary
local.contributor.affiliation	O'Mara, Megan, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliation	Liu, Yingjie, University of Calgary
local.contributor.affiliation	Mi, Tao, University of Calgary
local.contributor.affiliation	Zhang, Lin, University of Calgary
local.contributor.affiliation	Bolstad, Jeff, University of Calgary
local.contributor.affiliation	Semeniuk, Lisa, University of Calgary
local.contributor.affiliation	Cheng, Hongqiang, University of California at San Diego
local.contributor.affiliation	Zhang, Jianlin, University of California at San Diego
local.contributor.affiliation	Chen, Ju, University of California at San Diego
local.contributor.affiliation	Tieleman, D. Peter, University of Calgary
local.contributor.affiliation	Gillis, Anne M, University of Calgary
local.contributor.affiliation	Duff, Henry J, University of Calgary
local.contributor.affiliation	Fill, Michael, Rush University Medical Center
local.contributor.affiliation	Song, Long-Sheng, University of Iowa Carver College of Medicine
local.contributor.affiliation	Chen, S R Wayne, University of Calgary
local.contributor.authoruid	O'Mara, Megan, u4022190
local.description.embargo	2037-12-31
local.description.notes	Imported from ARIES
local.identifier.absfor	030402 - Biomolecular Modelling and Design
local.identifier.absseo	970103 - Expanding Knowledge in the Chemical Sciences
local.identifier.ariespublication	U4217927xPUB841
local.identifier.citationvolume	20
local.identifier.doi	10.1038/nm.3440
local.identifier.scopusID	2-s2.0-84893753403
local.type.status	Published Version

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