心房颤动与心力衰竭相关的分子机制包括由于线粒体功能障碍导致的能量代谢紊乱。

Molecular Mechanism of the Association Between Atrial Fibrillation and Heart Failure Includes Energy Metabolic Dysregulation Due to Mitochondrial Dysfunction.

机构信息

Department of Medicine, Section of Cardiology, University of Chicago Medical Center, Chicago, Illinois.

出版信息

J Card Fail. 2019 Nov;25(11):911-920. doi: 10.1016/j.cardfail.2019.08.005. Epub 2019 Aug 12.

DOI:10.1016/j.cardfail.2019.08.005

PMID:31415862

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7144800/

Abstract

BACKGROUND

Atrial fibrillation (AF) and heart failure (HF) commonly coexist, yet the molecular mechanisms of this association have not been determined. We hypothesized that an energy deficit due to mitochondrial dysfunction plays a significant role in pathogenic link between AF and HF.

METHODS AND RESULTS

Myocardial energy metabolism and mitochondria were examined in atrial tissue samples from patients and mice (cardiac-specific LKB1 knock-out) with HF and/or AF. There was significant atrial energy (ATP) deficit in patients with HF (11.5±1.3 nmol/mg, n=10; vs without HF 17±3.8 nmol/mg, n=5, P = .032). AF was associated with further energy depletion (ATP 5.4±1.2 nmol/mg, n=9) in HF (P = .001) and metabolic stress (AMP/ATP 1.6±0.1 vs 0.7±0.2 in HF alone; P = .043). The left atrium demonstrated lower ATP than the right (P = .004). Mitochondrial dysfunction and remodeling caused ATP depletion with impaired oxidative phosphorylation complexes (succinate dehydrogenase and cytochrome c oxidase), increased reactive oxygen species, and mtDNA damage in mice and human atria with AF and HF.

CONCLUSIONS

Molecular mechanisms of the association between HF and AF include an energy deficit due to mitochondrial dysfunction in atrial myocardium. Mitochondrial functional and structural remodeling in human and mouse atria is associated with energy metabolic dysregulation and oxidative stress that promote AF in HF and vice versa.

摘要

背景

心房颤动（AF）和心力衰竭（HF）通常同时存在，但两者之间的关联的分子机制尚未确定。我们假设，由于线粒体功能障碍导致的能量不足在 AF 和 HF 之间的致病联系中起着重要作用。

方法和结果

我们检查了心力衰竭（HF）患者和具有 HF 和/或 AF 的小鼠（心脏特异性 LKB1 敲除）的心房组织样本中的心肌能量代谢和线粒体。HF 患者的心房能量（ATP）明显不足（11.5±1.3 nmol/mg，n=10；与无 HF 组相比 17±3.8 nmol/mg，n=5，P =.032）。AF 与 HF 中的进一步能量耗竭（ATP 5.4±1.2 nmol/mg，n=9，P =.001）和代谢应激（AMP/ATP 为 1.6±0.1，与 HF 组单独相比为 0.7±0.2，P =.043）相关。左心房的 ATP 低于右心房（P =.004）。线粒体功能障碍和重构导致 ATP 耗竭，同时伴有氧化磷酸化复合物（琥珀酸脱氢酶和细胞色素 c 氧化酶）受损、活性氧增加和 mtDNA 损伤，在具有 AF 和 HF 的小鼠和人类心房中均如此。

结论

HF 和 AF 之间关联的分子机制包括由于心房心肌中线粒体功能障碍导致的能量不足。人源和鼠源心房中线粒体的功能和结构重构与能量代谢失调和氧化应激有关，这些在 HF 中促进了 AF 的发生，反之亦然。

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