心肌铁缺乏和线粒体功能障碍在人类晚期心力衰竭

Hao Zhang, K. Jamieson, J. Grenier, A. Nikhanj, Zeyu Tang, Faqi Wang, Shaohua Wang, J. Seidman, C. Seidman, R. Thompson, J. Seubert, G. Oudit
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引用次数: 17

摘要

心衰(HF)中的心肌铁缺乏(MID)仍未被广泛研究。我们的目的是建立MID的定义标准,评估其病理生理作用,并评估无创监测它在人类移植心脏中的适用性。方法和结果测定了衰竭(n=138)和非衰竭对照(NFC, n=46)人心脏的双心室组织铁水平。临床表型分析辅以心肌重构和线粒体功能谱的综合评估,包括代谢和氧化应激。心肌核磁共振成像进一步观察心肌铁状态。HF组左心室心肌铁含量低于NFC组(121.4[88.1-150.3]比137.4 [109.2-165.9]μg/g干重),而右心室不存在。在左心室的先验截断值为86.1 μg/g d.w.时,我们发现23%的HF患者合并MID (HF‐MID)伴有较高的NYHA分级和左心室功能恶化。在HF‐MID心脏中,呼吸链和克雷布斯循环酶活性受到抑制,并与铁储量耗尽密切相关。在缺铁的心脏中,抗氧化应激的能力严重受损,与不良重构恶化有关。在机制上,HF‐MID中的铁摄取途径受阻,包括向肌膜的转运减少,而铁转运蛋白的跨膜部分与MID呈正相关。心脏磁共振T2*有效捕获衰竭心脏的心肌铁水平。结论:MID在晚期心衰患者中非常普遍,并且主要由线粒体功能障碍和左心室氧化应激增加引起的心衰病理性重构加剧。心脏磁共振显示了无创监测MID的临床潜力。
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Myocardial Iron Deficiency and Mitochondrial Dysfunction in Advanced Heart Failure in Humans
Background Myocardial iron deficiency (MID) in heart failure (HF) remains largely unexplored. We aim to establish defining criterion for MID, evaluate its pathophysiological role, and evaluate the applicability of monitoring it non‐invasively in human explanted hearts. Methods and Results Biventricular tissue iron levels were measured in both failing (n=138) and non‐failing control (NFC, n=46) explanted human hearts. Clinical phenotyping was complemented with comprehensive assessment of myocardial remodeling and mitochondrial functional profiles, including metabolic and oxidative stress. Myocardial iron status was further investigated by cardiac magnetic resonance imaging. Myocardial iron content in the left ventricle was lower in HF versus NFC (121.4 [88.1–150.3] versus 137.4 [109.2–165.9] μg/g dry weight), which was absent in the right ventricle. With a priori cutoff of 86.1 μg/g d.w. in left ventricle, we identified 23% of HF patients with MID (HF‐MID) associated with higher NYHA class and worsened left ventricle function. Respiratory chain and Krebs cycle enzymatic activities were suppressed and strongly correlated with depleted iron stores in HF‐MID hearts. Defenses against oxidative stress were severely impaired in association with worsened adverse remodeling in iron‐deficient hearts. Mechanistically, iron uptake pathways were impeded in HF‐MID including decreased translocation to the sarcolemma, while transmembrane fraction of ferroportin positively correlated with MID. Cardiac magnetic resonance with T2* effectively captured myocardial iron levels in failing hearts. Conclusions MID is highly prevalent in advanced human HF and exacerbates pathological remodeling in HF driven primarily by dysfunctional mitochondria and increased oxidative stress in the left ventricle. Cardiac magnetic resonance demonstrates clinical potential to non‐invasively monitor MID.
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