硝基油酸可增强线粒体代谢并改善射血分数保留的小鼠心力衰竭。

Nitro-oleic acid enhances mitochondrial metabolism and ameliorates heart failure with preserved ejection fraction in mice.

作者信息

Müller Marion, Schubert Torben, Welke Cornelius, Maske Tibor, Patschkowski Thomas, Donhauser Elfi, Heinen-Weiler Jacqueline, Hormann Felix-Levin, Heiles Sven, Schulz Tina Johanna, Lengenfelder Luisa Andrea, Landwehrjohann Lucia, Vogt Elisa Theres, Stratmann Bernd, Hense Jurek, Lüdtke Simon, Düfer Martina, Tolstik Elena, Dierks Johann, Lorenz Kristina, Huxohl Tamino, Reil Jan-Christian, Sequeira Vasco, Schopfer Francisco Jose, Freeman Bruce A, Rudolph Volker, Schlomann Uwe, Klinke Anna

机构信息

Clinic for General and Interventional Cardiology/ Angiology, Herz- und Diabeteszentrum NRW, Ruhr-Universität Bochum, Bad Oeynhausen, Germany.

Agnes Wittenborg Institute for Translational Cardiovascular Research (AWIHK), Herz- und Diabeteszentrum NRW, Ruhr-Universität Bochum, Bad Oeynhausen, Germany.

出版信息

Nat Commun. 2025 Apr 26;16(1):3933. doi: 10.1038/s41467-025-59192-5.

DOI:10.1038/s41467-025-59192-5

PMID:40287424

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12033319/

Abstract

The prevalence of heart failure with preserved ejection fraction (HFpEF) is increasing, while treatment options are inadequate. Hypertension and obesity-related metabolic dysfunction contribute to HFpEF. Nitro-oleic acid (NO-OA) impacts metabolic syndromes by improving glucose tolerance and adipocyte function. Here we show that treatment with NO-OA ameliorates diastolic dysfunction and heart failure symptoms in a HFpEF mouse model induced by high-fat diet and inhibition of the endothelial nitric oxide synthase. Proteomic analysis of left ventricular tissue reveals that one-third of identified proteins, predominantly mitochondrial, are upregulated in hearts of NO-OA-treated HFpEF mice compared to naïve and vehicle-treated HFpEF mice. Increased mitochondrial mass and numbers, and enhanced mitochondrial respiration are linked with this response, as assessed by transmission electron microscopy and high-resolution respirometry. Activation of the 5'-adenosine-monophosphate-activated-protein-kinase (AMPK) signaling pathway mediates the enhancement of mitochondrial dynamics in hearts of NO-OA-treated HFpEF mice. These findings suggest that targeting mitochondrial function with NO-OA may represent a promising therapeutic strategy for HFpEF.

摘要

射血分数保留的心力衰竭（HFpEF）的患病率正在上升，而治疗选择却不足。高血压和肥胖相关的代谢功能障碍会导致HFpEF。硝基油酸（NO-OA）通过改善葡萄糖耐量和脂肪细胞功能来影响代谢综合征。在此，我们表明，用NO-OA治疗可改善由高脂饮食和内皮型一氧化氮合酶抑制诱导的HFpEF小鼠模型中的舒张功能障碍和心力衰竭症状。对左心室组织的蛋白质组学分析表明，与未处理和用载体处理的HFpEF小鼠相比，在经NO-OA处理的HFpEF小鼠心脏中，三分之一的已鉴定蛋白质（主要是线粒体蛋白）上调。通过透射电子显微镜和高分辨率呼吸测定法评估，线粒体质量和数量的增加以及线粒体呼吸的增强与这种反应有关。5'-腺苷单磷酸激活蛋白激酶（AMPK）信号通路的激活介导了经NO-OA处理的HFpEF小鼠心脏中线粒体动力学的增强。这些发现表明，用NO-OA靶向线粒体功能可能是一种有前景的HFpEF治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c831/12033319/8bb955920be2/41467_2025_59192_Fig1_HTML.jpg

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硝基油酸可增强线粒体代谢并改善射血分数保留的小鼠心力衰竭。

Nitro-oleic acid enhances mitochondrial metabolism and ameliorates heart failure with preserved ejection fraction in mice.

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