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代谢综合征大鼠模型中的β-肾上腺素能系统改变、心脏功能障碍及致死性心律失常

Altered β-Adrenergic System, Cardiac Dysfunction, and Lethal Arrhythmia in a Rat Model of Metabolic Syndrome.

作者信息

Sánchez-Hernández Rommel, Cruz-Villarreal Daphne E, Silva-Palacios Alejandro, Zúñiga-Muñoz Alejandra-María, Soria-Castro Elizabeth, Sánchez-Garibay Carlos, Zazueta Cecilia, Olivares-Reyes J Alberto, Arias-Montaño José-Antonio, Rueda Angélica

机构信息

Department of Physiology, Biophysics and Neurosciences, Center for Research and Advanced Studies (Cinvestav) of the National Polytechnic Institute, Av. IPN 2508, San Pedro Zacatenco, Mexico City 07300, Mexico.

Department of Biochemistry, Center for Research and Advanced Studies (Cinvestav) of the National Polytechnic Institute, Av. IPN 2508, San Pedro Zacatenco, Mexico City 07300, Mexico.

出版信息

Int J Mol Sci. 2025 Aug 19;26(16):7989. doi: 10.3390/ijms26167989.

DOI:10.3390/ijms26167989
PMID:40869310
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12386379/
Abstract

Metabolic syndrome (MetS) is a worldwide problem affecting at least one-third of the population. MetS patients have increased cardiovascular risk associated with an abnormal β-adrenergic response; however, it is not clear how MetS affects the cardiac β-adrenergic system. We analyzed cardiac function and the β-adrenergic response in an experimental model of MetS in rats by recording pressure-volume (PV) loops via an open-chest approach and performed a biochemical characterization of the cardiac β-adrenergic system through ELISA, radioligand binding assays, and Western blotting. Microscopy was employed to evaluate cardiac hypertrophy, fibrosis, and ultrastructure. MetS rats exhibited cardiac dysfunction, evidenced by a reduced cardiac output and ejection fraction, not explained by heart hypertrophy or fibrosis. MetS rats also had an elevated susceptibility to lethal arrhythmia following intra-cardiac administration of the non-selective β-adrenergic agonist isoproterenol, suggesting alterations in the β-adrenergic system. The total serum adrenaline and noradrenaline levels were higher in the MetS animals than those in the control group. The radioligand binding assays indicated no change in the βAR density; however, the Western blot analyses revealed decreased levels of Gα proteins and β-arrestin 1, but increased βAR and Gα protein levels. This study contributes to our understanding of how MetS can alter cardiac function, raising the risk of lethal arrhythmia induced by the β-adrenergic (fight or flight) response and underscores the relevance of therapeutically targeting MetS before its pathological progression toward cardiomyopathy.

摘要

代谢综合征(MetS)是一个全球性问题,影响着至少三分之一的人口。MetS患者心血管风险增加,与异常的β-肾上腺素能反应相关;然而,目前尚不清楚MetS如何影响心脏β-肾上腺素能系统。我们通过开胸方法记录压力-容积(PV)环,分析了大鼠MetS实验模型中的心脏功能和β-肾上腺素能反应,并通过酶联免疫吸附测定(ELISA)、放射性配体结合试验和蛋白质免疫印迹法对心脏β-肾上腺素能系统进行了生化特性分析。采用显微镜评估心脏肥大、纤维化和超微结构。MetS大鼠表现出心脏功能障碍,表现为心输出量和射血分数降低,而非心脏肥大或纤维化所致。MetS大鼠在心脏内注射非选择性β-肾上腺素能激动剂异丙肾上腺素后,对致命性心律失常的易感性也增加,提示β-肾上腺素能系统发生了改变。MetS动物的血清肾上腺素和去甲肾上腺素总水平高于对照组。放射性配体结合试验表明β肾上腺素能受体(βAR)密度无变化;然而,蛋白质免疫印迹分析显示Gα蛋白和β抑制蛋白1水平降低,但βAR和Gα蛋白水平升高。这项研究有助于我们理解MetS如何改变心脏功能,增加由β-肾上腺素能(战斗或逃跑)反应诱发的致命性心律失常的风险,并强调在MetS向心肌病的病理进展之前进行治疗性靶向治疗的相关性。

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