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首页> 外文期刊>Heart rhythm: the official journal of the Heart Rhythm Society >Mechanistic insights into the interaction of cardiac sodium channel Na(v)1.5 with MOG1 and a new molecular mechanism for Brugada syndrome
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Mechanistic insights into the interaction of cardiac sodium channel Na(v)1.5 with MOG1 and a new molecular mechanism for Brugada syndrome

机译:机械的见解之间的相互作用心脏钠通道MOG1和Na (v) 1.5新的分子机制Brugada综合症

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BACKGROUND Mutations in cardiac sodium channel Na(v)1.5 cause Brugada syndrome (BrS). MOG1 is a chaperone that binds to Na(v)1.5, facilitates Na(v)1.5 trafficking to the cell surface, and enhances the amplitude of sodium current I-Na. OBJECTIVE The purpose of this study was to identify structural elements involved in MOG1-Na(v)1.5 interaction and their relevance to the pathogenesis of BrS. METHODS Systematic analyses of large deletions, microdeletions, and point mutations, and glutathione S-transferases pull-down, co-immunoprecipitation, cell surface protein quantification, and patch-clamping of I-Na were performed. RESULTS Large deletion analysis defined the MOG1-Na(v)1.5 interaction domain to amino acids S-476-H-585 of Na(v)1.5 Loop I connecting transmembrane domains I and II. Microdeletion and point mutation analyses further defined the domain to F530T531F532R533R534R535. Mutations F530A, F532A, R533A, and R534A, but not T531A and R535A, significantly reduced MOG1-Na(v)1.5 interaction and eliminated MOG1-enhanced I-Na. Mutagenesis analysis identified D24, E36, D44, E53, and E101A of MOG1 as critical residues for interaction with Na(v)1.5 Loop I. We then characterized 3 mutations at the MOG1-Na(v)1.5 interaction domain: p.F530V, p.F532C, and p.R535Q reported from patients with long QT syndrome and BrS. We found that p.F532C reduced MOG1-Na(v)1.5 interaction and eliminated MOG1 function on I-Na; p.R535Q is also a loss-of-function mutation that reduces I-Na amplitude in a MOG1-independent manner, whereas p.F530V is benign as it does not have an apparent effect on MOG1 and I-Na. CONCLUSION Our findings define the MOG1-Na(v)1.5 interaction domain to a 5-amino-acid motif of F530T531F532R533R534 in Loop I. Mutation p.F532C associated with BrS abolishes Na(v)1.5 interaction with MOG1 and reduces MOG1-enhanced I-Na density, thereby uncovering a novel molecular mechanism for the pathogenesis of BrS.
机译:背景突变心脏钠离子通道Na (1.5 v)导致Brugada综合症(BrS)。伴护蛋白结合Na (v) 1.5,便利Na (v) 1.5贩运到细胞表面,和提高钠电流的振幅我就纳了。目的本研究的目的是确定结构元素参与MOG1-Na (1.5 v)交互及其相关性br的发病机理。分析大型删除、微小缺失和点突变,谷胱甘肽S-transferases下拉,co-immunoprecipitation,细胞表面蛋白定量,patch-clamping我就纳了被执行。分析定义了MOG1-Na (1.5 v)交互域的氨基酸s - 476 h - 585 Na (v) 1.5循环我连接跨膜域I和II。进一步Microdeletion和点突变分析定义了域F530T531F532R533R534R535。突变F530A、F532A R533A R534A,但不是T531A R535A,明显减少了MOG1-Na (1.5 v)交互和消除MOG1-enhanced我就纳了。确定D24、E36 D44 E53, E101A MOG1作为与临界残留Na (1.5 v)循环特征。然后我们3突变在MOG1-Na (1.5 v)交互域:p.F530V、p.F532C p.R535Q报道从长QT综合症患者和br。1.5发现p.F532C减少MOG1-Na (v)我就纳了交互和消除MOG1函数;p.R535Q也是一个功能丧失的突变减少了我就纳MOG1-independent振幅方式,而p.F530V是良性的,因为它没有对MOG1有明显的影响,我就纳了。结论我们的研究定义MOG1-Na (v) 1.5交互的5-amino-acid主题域在循环即突变p.F532C F530T531F532R533R5341.5与br废除Na (v)与MOG1互动,减少MOG1-enhanced我就纳了密度,从而揭示小说发病机理的分子机制可以。

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