小鼠中Scn2b基因缺失导致心室和心房心律失常。
Scn2b Deletion in Mice Results in Ventricular and Atrial Arrhythmias.
作者信息
Bao Yangyang, Willis B Cicero, Frasier Chad R, Lopez-Santiago Luis F, Lin Xianming, Ramos-Mondragón Roberto, Auerbach David S, Chen Chunling, Wang Zhenxun, Anumonwo Justus, Valdivia Héctor H, Delmar Mario, Jalife José, Isom Lori L
机构信息
From the Department of Pharmacology, University of Michigan Medical School, Ann Arbor (Y.B., C.R.F., L.F.L.-S., C.C., L.L.I.); Center for Arrhythmia Research and Department of Medicine/Cardiovascular Medicine, University of Michigan, Ann Arbor (B.C.W., R.R.-M., J.A., H.H.V., J.J.); Leon H. Charney Division of Cardiology, New York University School of Medicine, NY (X.L., M.D.); Department of Pharmacology and Physiology, University of Rochester Medical Center, NY (D.S.A.); and Division of Biostatistics, School of Public Health, University of Minnesota, Minneapolis (Z.W.).
出版信息
Circ Arrhythm Electrophysiol. 2016 Dec;9(12). doi: 10.1161/CIRCEP.116.003923.
BACKGROUND
Mutations in SCN2B, encoding voltage-gated sodium channel β2-subunits, are associated with human cardiac arrhythmias, including atrial fibrillation and Brugada syndrome. Because of this, we propose that β2-subunits play critical roles in the establishment or maintenance of normal cardiac electric activity in vivo.
METHODS AND RESULTS
To understand the pathophysiological roles of β2 in the heart, we investigated the cardiac phenotype of Scn2b null mice. We observed reduced sodium and potassium current densities in ventricular myocytes, as well as conduction slowing in the right ventricular outflow tract region. Functional reentry, resulting from the interplay between slowed conduction, prolonged repolarization, and increased incidence of premature ventricular complexes, was found to underlie the mechanism of spontaneous polymorphic ventricular tachycardia. Scn5a transcript levels were similar in Scn2b null and wild-type ventricles, as were levels of Na1.5 protein, suggesting that similar to the previous work in neurons, the major function of β2-subunits in the ventricle is to chaperone voltage-gated sodium channel α-subunits to the plasma membrane. Interestingly, Scn2b deletion resulted in region-specific effects in the heart. Scn2b null atria had normal levels of sodium current density compared with wild type. Scn2b null hearts were more susceptible to atrial fibrillation, had increased levels of fibrosis, and higher repolarization dispersion than wild-type littermates.
CONCLUSIONS
Genetic deletion of Scn2b in mice results in ventricular and atrial arrhythmias, consistent with reported SCN2B mutations in human patients.
背景
编码电压门控钠通道β2亚基的SCN2B基因突变与人类心律失常有关,包括心房颤动和Brugada综合征。因此,我们提出β2亚基在体内正常心脏电活动的建立或维持中起关键作用。
方法与结果
为了解β2在心脏中的病理生理作用,我们研究了Scn2b基因敲除小鼠的心脏表型。我们观察到心室肌细胞中钠电流和钾电流密度降低,以及右心室流出道区域的传导减慢。由传导减慢、复极化延长和室性早搏发生率增加之间的相互作用导致的功能性折返,被发现是自发性多形性室性心动过速机制的基础。Scn2b基因敲除小鼠和野生型小鼠心室中的Scn5a转录水平相似,Na1.5蛋白水平也相似,这表明与之前在神经元中的研究结果相似,β2亚基在心室中的主要功能是将电压门控钠通道α亚基转运到质膜。有趣的是,Scn2b基因缺失在心脏中产生了区域特异性影响。与野生型相比,Scn2b基因敲除小鼠心房的钠电流密度水平正常。Scn2b基因敲除小鼠的心脏比野生型同窝小鼠更容易发生心房颤动,纤维化水平增加,复极化离散度更高。
结论
小鼠中Scn2b基因的遗传缺失导致心室和心房心律失常,这与人类患者中报道的SCN2B基因突变一致。
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