Mitochondrial Dysfunction in HFpEF: Potential Interventions Through Exercise

被引:2
作者
Cui, Xinxin [1 ,2 ]
Spanos, Michail [3 ,4 ,5 ]
Zhao, Cuimei [6 ]
Wan, Wensi [2 ]
Cui, Caiyue [2 ]
Wang, Lijun [1 ,2 ]
Xiao, Junjie [1 ,2 ]
机构
[1] Shanghai Univ, Peoples Hosp Nantong 6, Affiliated Nantong Hosp, Cardiac Regenerat & Ageing Lab,Inst Geriatr,Sch Me, Nantong 226011, Peoples R China
[2] Shanghai Univ, Inst Cardiovasc Sci, Shanghai Engn Res Ctr Organ Repair,Minist Educ, Sch Life Sci,Joint Int Res Lab Biomat & Biotechnol, Shanghai, Peoples R China
[3] Massachusetts Gen Hosp, Cardiovasc Div, Boston, MA 02114 USA
[4] Harvard Med Sch, Boston, MA 02114 USA
[5] Albert Einstein Coll Med, NCB, Dept Internal Med, Bronx, NY USA
[6] Tongji Univ, Shanghai Tongji Hosp, Sch Med, Dept Cardiol, Shanghai 200065, Peoples R China
来源
JOURNAL OF CARDIOVASCULAR TRANSLATIONAL RESEARCH | 2025年
基金
上海市自然科学基金; 中国国家自然科学基金;
关键词
Heart failure with preserved ejection fraction; Mitochondria; Exercise; Mitochondrial dynamics; Oxidative stress; PRESERVED EJECTION FRACTION; HEART-FAILURE; OXIDATIVE STRESS; RAT-HEART; MOUSE MODEL; CARDIOMYOPATHY; INFLAMMATION; ACTIVATION; MECHANISMS; NAD(+)/NADH;
D O I
10.1007/s12265-025-10591-5
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
HFpEF is a prevalent and complex type of heart failure. The concurrent presence of conditions such as obesity, hypertension, hyperglycemia, and hyperlipidemia significantly increase the risk of developing HFpEF. Mitochondria, often referred to as the powerhouses of the cell, are crucial in maintaining cellular functions, including ATP production, intracellular Ca2+ regulation, reactive oxygen species generation and clearance, and the regulation of apoptosis. Exercise plays a vital role in preserving mitochondrial homeostasis, thereby protecting the cardiovascular system from acute stress, and is a fundamental component in maintaining cardiovascular health. In this study, we review the mitochondrial dysfunction underlying the development and progression of HFpEF. Given the pivotal role of exercise in modulating cardiovascular diseases, we particularly focus on exercise as a potential therapeutic strategy for improving mitochondrial function.Graphical abstractNote: This picture was created with BioRender.com
引用
收藏
页码:442 / 456
页数:15
相关论文
共 120 条
  • [1] FBXL4 protects against HFpEF through Drp1-Mediated regulation of mitochondrial dynamics and the downstream SERCA2a
    Abudureyimu, Miyesaier
    Luo, Xuanming
    Jiang, Lingling
    Jin, Xuejuan
    Pan, Cuizhen
    Yu, Wei
    Ge, Junbo
    Zhang, Yingmei
    Ren, Jun
    [J]. REDOX BIOLOGY, 2024, 70
  • [2] Substrate-Specific Derangements in Mitochondrial Metabolism and Redox Balance in the Atrium of the Type 2 Diabetic Human Heart
    Anderson, Ethan J.
    Kypson, Alan P.
    Rodriguez, Evelio
    Anderson, Curtis A.
    Lehr, Eric J.
    Neufer, P. Darrell
    [J]. JOURNAL OF THE AMERICAN COLLEGE OF CARDIOLOGY, 2009, 54 (20) : 1891 - 1898
  • [3] Patient phenotype profiling in heart failure with preserved ejection fraction to guide therapeutic decision making. A scientific statement of the Heart Failure Association and the European Heart Rhythm Association of the European Society of Cardiology, and the European Society of Hypertension
    Anker, Stefan D.
    Usman, Muhammad Shariq
    Anker, Markus S.
    Butler, Javed
    Boehm, Michael
    Abraham, William T.
    Adamo, Marianna
    Chopra, Vijay K.
    Cicoira, Mariantonietta
    Cosentino, Francesco
    Filippatos, Gerasimos
    Jankowska, Ewa A.
    Lund, Lars H.
    Moura, Brenda
    Mullens, Wilfried
    Pieske, Burkert
    Ponikowski, Piotr
    Gonzalez-Juanatey, Jose R.
    Rakisheva, Amina
    Savarese, Gianluigi
    Seferovic, Petar
    Teerlink, John R.
    Tschoepe, Carsten
    Volterrani, Maurizio
    von Haehling, Stephan
    Zhang, Jian
    Zhang, Yuhui
    Bauersachs, Johann
    Landmesser, Ulf
    Zieroth, Shelley
    Tsioufis, Konstantinos
    Bayes-Genis, Antoni
    Chioncel, Ovidiu
    Andreotti, Felicita
    Agabiti-Rosei, Enrico
    Merino, Jose L.
    Metra, Marco
    Coats, Andrew J. S.
    Rosano, Giuseppe M. C.
    [J]. EUROPEAN JOURNAL OF HEART FAILURE, 2023, 25 (07) : 936 - 955
  • [4] Heart failure with preserved ejection fraction: An alternative paradigm to explain the clinical implications of atrial fibrillation
    Ariyaratnam, Jonathan P.
    Elliott, Adrian D.
    Mishima, Ricardo S.
    Gallagher, Celine
    Lau, Dennis H.
    Sanders, Prashanthan
    [J]. HEART RHYTHM O2, 2021, 2 (06): : 771 - 783
  • [5] H2O2 alters rat cardiac sarcomere function and protein phosphorylation through redox signaling
    Avner, Benjamin S.
    Hinken, Aaron C.
    Yuan, Chao
    Solaro, R. John
    [J]. AMERICAN JOURNAL OF PHYSIOLOGY-HEART AND CIRCULATORY PHYSIOLOGY, 2010, 299 (03): : H723 - H730
  • [6] Exercise training remodels human skeletal muscle mitochondrial fission and fusion machinery towards a pro-elongation phenotype
    Axelrod, Christopher L.
    Fealy, Ciaran E.
    Mulya, Anny
    Kirwan, John P.
    [J]. ACTA PHYSIOLOGICA, 2019, 225 (04)
  • [7] PPAR signaling in the control of cardiac energy metabolism
    Barger, PM
    Kelly, DP
    [J]. TRENDS IN CARDIOVASCULAR MEDICINE, 2000, 10 (06) : 238 - 245
  • [8] Mitochondrial NAD+/NADH Redox State and Diabetic Cardiomyopathy
    Berthiaume, Jessica M.
    Kurdys, Jacob G.
    Muntean, Danina M.
    Rosca, Mariana G.
    [J]. ANTIOXIDANTS & REDOX SIGNALING, 2019, 30 (03) : 375 - 398
  • [9] Selective Autophagy in Hyperglycemia-Induced Microvascular and Macrovascular Diseases
    Bharath, Leena P.
    Rockhold, Jack Donato
    Conway, Rachel
    [J]. CELLS, 2021, 10 (08)
  • [10] Regulation of mitochondrial uncoupling respiration during exercise in rat heart: Role of reactive oxygen species (ROS) and uncoupling protein 2
    Bo, Hai
    Jiang, Ning
    Ma, Guodong
    Qu, Jinting
    Zhang, Guizhong
    Cao, Dongning
    Wen, Li
    Liu, Shusen
    Ji, Li Li
    Zhang, Yong
    [J]. FREE RADICAL BIOLOGY AND MEDICINE, 2008, 44 (07) : 1373 - 1381
12345678910