恩格列净通过稳定线粒体呼吸链改善 HFpEF 的舒张功能。

Empagliflozin Improves Diastolic Function in HFpEF by Restabilizing the Mitochondrial Respiratory Chain.

机构信息

Department of Internal Medicine and Cardiology, Heart Center Dresden - Laboratory of Experimental and Molecular Cardiology, Technische Universität Dresden, Germany (A.S., V.A., E.L., A.A., P.B., A.M., P.K.N.A., A.L., E.B.W.).

Institute of Pharmacology and Toxicology, Faculty of Medicine Carl Gustav Carus, Technische Universität Dresden, Germany (S.K., M.G., A.E.-A.).

出版信息

Circ Heart Fail. 2024 Jun;17(6):e011107. doi: 10.1161/CIRCHEARTFAILURE.123.011107. Epub 2024 Jun 7.

DOI:10.1161/CIRCHEARTFAILURE.123.011107

PMID:38847102

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11177604/

Abstract

BACKGROUND

Clinical studies demonstrated beneficial effects of sodium-glucose-transporter 2 inhibitors on the risk of cardiovascular death in patients with heart failure with preserved ejection fraction (HFpEF). However, underlying processes for cardioprotection remain unclear. The present study focused on the impact of empagliflozin (Empa) on myocardial function in a rat model with established HFpEF and analyzed underlying molecular mechanisms.

METHODS

Obese ZSF1 (Zucker fatty and spontaneously hypertensive) rats were randomized to standard care (HFpEF, n=18) or Empa (HFpEF/Empa, n=18). ZSF1 lean rats (con, n=18) served as healthy controls. Echocardiography was performed at baseline and after 4 and 8 weeks, respectively. After 8 weeks of treatment, hemodynamics were measured invasively, mitochondrial function was assessed and myocardial tissue was collected for either molecular and histological analyses or transmission electron microscopy.

RESULTS

In HFpEF Empa significantly improved diastolic function (E/é: con: 17.5±2.8; HFpEF: 24.4±4.6; <0.001 versus con; HFpEF/Empa: 19.4±3.2; <0.001 versus HFpEF). This was accompanied by improved hemodynamics and calcium handling and by reduced inflammation, hypertrophy, and fibrosis. Proteomic analysis demonstrated major changes in proteins involved in mitochondrial oxidative phosphorylation. Cardiac mitochondrial respiration was significantly impaired in HFpEF but restored by Empa (V complex IV: con: 0.18±0.07 mmol O/s/mg; HFpEF: 0.13±0.05 mmol O/s/mg; <0.041 versus con; HFpEF/Empa: 0.21±0.05 mmol O/s/mg; =0.012 versus HFpEF) without alterations of mitochondrial content. The expression of cardiolipin, an essential stability/functionality-mediating phospholipid of the respiratory chain, was significantly decreased in HFpEF but reverted by Empa (con: 15.9±1.7 nmol/mg protein; HFpEF: 12.5±1.8 nmol/mg protein; =0.002 versus con; HFpEF/Empa: 14.5±1.8 nmol/mg protein; =0.03 versus HFpEF). Transmission electron microscopy revealed a reduced size of mitochondria in HFpEF, which was restored by Empa.

CONCLUSIONS

The study demonstrates beneficial effects of Empa on diastolic function, hemodynamics, inflammation, and cardiac remodeling in a rat model of HFpEF. These effects were mediated by improved mitochondrial respiratory capacity due to modulated cardiolipin and improved calcium handling.

摘要

背景

临床研究表明，钠-葡萄糖共转运蛋白 2 抑制剂（SGLT2i）可降低射血分数保留的心力衰竭（HFpEF）患者的心血管死亡风险。然而，其心脏保护的潜在机制仍不清楚。本研究聚焦于 Empagliflozin（恩格列净）对 HFpEF 大鼠模型心肌功能的影响，并分析其潜在的分子机制。

方法

肥胖 ZSF1（Zucker 肥胖型自发性高血压）大鼠随机分为标准治疗组（HFpEF，n=18）或 Empa 治疗组（HFpEF/Empa，n=18）。ZSF1 瘦型大鼠（对照组，n=18）作为健康对照。分别在基线和 4 周、8 周时进行超声心动图检查。治疗 8 周后，行有创血流动力学检测，评估线粒体功能，并采集心肌组织进行分子和组织学分析或透射电镜检查。

结果

在 HFpEF 中，Empa 显著改善了舒张功能（E/é：对照组：17.5±2.8；HFpEF：24.4±4.6；<0.001 与对照组相比；HFpEF/Empa：19.4±3.2；<0.001 与 HFpEF 组相比）。这伴随着血液动力学和钙处理的改善，以及炎症、肥大和纤维化的减少。蛋白质组学分析表明，线粒体氧化磷酸化相关蛋白发生了重大变化。HFpEF 时心脏线粒体呼吸显著受损，但 Empa 可恢复（复合物 IV V：对照组：0.18±0.07mmol O/s/mg；HFpEF：0.13±0.05mmol O/s/mg；<0.041 与对照组相比；HFpEF/Empa：0.21±0.05mmol O/s/mg；=0.012 与 HFpEF 相比），而线粒体含量没有改变。呼吸链中重要的稳定性/功能调节磷脂心磷脂的表达在 HFpEF 中显著降低，但 Empa 可恢复（对照组：15.9±1.7nmol/mg 蛋白；HFpEF：12.5±1.8nmol/mg 蛋白；=0.002 与对照组相比；HFpEF/Empa：14.5±1.8nmol/mg 蛋白；=0.03 与 HFpEF 相比）。透射电镜显示 HFpEF 时线粒体体积减小，Empa 可恢复其大小。