Lowering Cardiac Branched-Chain Keto Acid Levels Enhances Cardiac Glucose Oxidation and Cardiac Efficiency via Enhancing Mitochondrial Insulin Signaling in Heart Failure.

IF 8.4 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Circulation: Heart Failure Pub Date : 2025-07-25 DOI:10.1161/CIRCHEARTFAILURE.124.012012

Qutuba G Karwi, Liyan Zhang, Keshav Gopal, Cory S Wagg, Kim L Ho, Qiuyu Sun, Sai Panidarapu, Kaya Persad, Betüol Altuany, Shaden Damen, Ezra Ketema, Jody Levasseur, Thomas Pulinilkunnil, John R Ussher, Jason R B Dyck, Gary D Lopaschuk

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Abstract

Background: Elevated levels of cardiac branched-chain amino acids (BCAAs) and their metabolites, namely branched-chain keto acids (BCKAs), contribute to the development of insulin resistance, contractile dysfunction, and adverse remodeling in the failing heart. However, there is still confusion about whether BCAA or BCKA mediate these detrimental effects in the failing heart.

Methods: Cardiac-specific mitochondrial branched-chain aminotransferase, the enzyme that converts BCAA into BCKA, knockout (BCAT2^-^/-) mice underwent a sham or transverse aortic constriction surgery to induce heart failure. Changes in cardiac function and structure were monitored pre- and posttransverse aortic constriction using echocardiography, and metabolic flux through the tricarboxylic acid cycle was measured by perfusing isolated working hearts with radiolabeled energy substrates. Direct effects of BCAA and BCKA on cell hypertrophy were characterized using phenylephrine-induced cell hypertrophy in differentiated cells.

Results: Lowering cardiac BCKA levels in BCAT2^-/- failing hearts increases insulin-stimulated glucose oxidation rates via enhancing mitochondrial protein kinase B and pyruvate dehydrogenase complex activities. Increased glucose oxidation rates in BCAT2^-/- failing hearts enhanced cardiac efficiency by decreasing myocardial oxygen consumption rates. However, cardiac BCAA accumulation was associated with excessive stimulation of the mammalian target of rapamycin signaling and aggravation of adverse cardiac remodeling in BCAT2^-/- failing hearts. As a result, the impact of BCAA accumulation offsets the beneficial effects of lowering cardiac BCKA levels on cardiac insulin sensitivity and cardiac efficiency.

Conclusions: Lowering BCKA levels enhances cardiac glucose oxidation and cardiac efficiency by enhancing mitochondrial insulin signaling. BCAA accumulation worsens adverse cardiac remodeling by exacerbating cardiac mammalian target of rapamycin signaling.

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降低心脏支链酮酸水平通过增强心力衰竭的线粒体胰岛素信号传导提高心脏葡萄糖氧化和心脏效率。

背景：心脏支链氨基酸（BCAAs）及其代谢产物，即支链酮酸（BCKAs）水平升高，有助于心力衰竭中胰岛素抵抗、收缩功能障碍和不良重构的发展。然而，对于BCAA或BCKA是否在衰竭心脏中介导这些有害影响仍然存在困惑。方法：心脏特异性线粒体支链转氨酶，将BCAA转化为BCKA的酶，敲除（BCAT2-/-）小鼠进行假或横断主动脉收缩手术以诱导心力衰竭。通过超声心动图监测主动脉横缩前后心功能和结构的变化，并通过用放射性标记的能量基质灌注离体工作心脏来测量三羧酸循环的代谢通量。用苯肾上腺素诱导分化细胞肥大的方法研究BCAA和BCKA对细胞肥大的直接影响。结果：降低BCAT2-/-衰竭心脏的BCKA水平，通过增强线粒体蛋白激酶B和丙酮酸脱氢酶复合物活性，增加胰岛素刺激的葡萄糖氧化速率。BCAT2-/-衰竭心脏中葡萄糖氧化率的增加通过降低心肌耗氧量来提高心脏效率。然而，心脏BCAA积累与哺乳动物雷帕霉素信号靶的过度刺激和BCAT2-/-衰竭心脏不良心脏重塑的加重有关。因此，BCAA积累的影响抵消了降低心脏BCKA水平对心脏胰岛素敏感性和心脏效率的有益影响。结论：降低BCKA水平可通过增强线粒体胰岛素信号传导增强心脏葡萄糖氧化和心脏效率。BCAA积累通过加剧雷帕霉素信号的心脏哺乳动物靶点而恶化不良的心脏重塑。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Circulation: Heart Failure 医学-心血管系统

CiteScore

12.90

自引率

3.10%

发文量

271

审稿时长

6-12 weeks

期刊介绍： Circulation: Heart Failure focuses on content related to heart failure, mechanical circulatory support, and heart transplant science and medicine. It considers studies conducted in humans or analyses of human data, as well as preclinical studies with direct clinical correlation or relevance. While primarily a clinical journal, it may publish novel basic and preclinical studies that significantly advance the field of heart failure.