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鸡心肌细胞和小鼠心脏中的副交感神经反应受固醇调节元件结合蛋白(SREBP)控制。

Parasympathetic response in chick myocytes and mouse heart is controlled by SREBP.

作者信息

Park Ho-Jin, Georgescu Serban P, Du Chuang, Madias Christopher, Aronovitz Mark J, Welzig C Michael, Wang Bo, Begley Ulrike, Zhang Yali, Blaustein Robert O, Patten Richard D, Karas Richard H, Van Tol Herbert H, Osborne Timothy F, Shimano Hitoshi, Liao Ronglih, Link Mark S, Galper Jonas B

机构信息

Molecular Cardiology Research Institute, Department of Medicine, Tufts-New England Medical Center and Tufts University School of Medicine, Boston, Massachusetts 02111, USA.

出版信息

J Clin Invest. 2008 Jan;118(1):259-71. doi: 10.1172/JCI32011.

DOI:10.1172/JCI32011
PMID:18060044
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2104475/
Abstract

Parasympathetic stimulation of the heart, which provides protection from arrhythmias and sudden death, involves activation of the G protein-coupled inward rectifying K+ channel GIRK1/4 and results in an acetylcholine-sensitive K+ current, I KACh. We describe a unique relationship between lipid homeostasis, the lipid-sensitive transcription factor SREBP-1, regulation of the cardiac parasympathetic response, and the development of ventricular arrhythmia. In embryonic chick atrial myocytes, lipid lowering by culture in lipoprotein-depleted serum increased SREBP-1 levels, GIRK1 expression, and I KACh activation. Regulation of the GIRK1 promoter by SREBP-1 and lipid lowering was dependent on interaction with 2 tandem sterol response elements and an upstream E-box motif. Expression of dominant negative SREBP-1 (DN-SREBP-1) reversed the effect of lipid lowering on I KACh and GIRK1. In SREBP-1 knockout mice, both the response of the heart to parasympathetic stimulation and the expression of GIRK1 were reduced compared with WT. I KACh, attenuated in atrial myocytes from SREBP-1 knockout mice, was stimulated by SREBP-1 expression. Following myocardial infarction, SREBP-1 knockout mice were twice as likely as WT mice to develop ventricular tachycardia in response to programmed ventricular stimulation. These results demonstrate a relationship between lipid metabolism and parasympathetic response that may play a role in arrhythmogenesis.

摘要

心脏的副交感神经刺激可预防心律失常和猝死,它涉及G蛋白偶联内向整流钾通道GIRK1/4的激活,并产生一种对乙酰胆碱敏感的钾电流I KACh。我们描述了脂质稳态、脂质敏感转录因子SREBP-1、心脏副交感反应调节与室性心律失常发生之间的独特关系。在胚胎鸡心房肌细胞中,在缺乏脂蛋白的血清中培养降低脂质水平会增加SREBP-1水平、GIRK1表达和I KACh激活。SREBP-1和脂质降低对GIRK1启动子的调节依赖于与2个串联固醇反应元件和一个上游E盒基序的相互作用。显性负性SREBP-1(DN-SREBP-1)的表达逆转了脂质降低对I KACh和GIRK1的影响。在SREBP-1基因敲除小鼠中,与野生型相比,心脏对副交感神经刺激的反应和GIRK1的表达均降低。SREBP-1基因敲除小鼠心房肌细胞中减弱的I KACh可被SREBP-1表达所刺激。心肌梗死后,SREBP-1基因敲除小鼠对程序性心室刺激发生室性心动过速的可能性是野生型小鼠的两倍。这些结果表明脂质代谢与副交感反应之间的关系可能在心律失常的发生中起作用。

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