Effects of different exercise modalities on cardiac dysfunction in heart failure with preserved ejection fraction

被引：5

作者：

Bode, David ^{[1
,2
,3
]}

Rolim, Natale P. L. ^{[4
]}

Guthof, Tim ^{[1
]}

Hegemann, Niklas ^{[1
,2
]}

Wakula, Paulina ^{[1
]}

Primessnig, Uwe ^{[1
,2
,3
]}

Berre, Anne Marie Ormbostad ^{[4
]}

Adams, Volker ^{[6
]}

Wisloff, Ulrik ^{[4
,7
]}

Pieske, Burkert M. ^{[1
,2
,3
,5
]}

Heinzel, Frank R. ^{[1
,2
]}

Hohendanner, Felix ^{[1
,2
,3
]}

机构：

[1] Charite Univ Med Berlin, Dept Internal Med & Cardiol, Campus Virchow Klinikum, Augustenburgerpl 1, D-13353 Berlin, Germany

[2] DZHK German Ctr Cardiovasc Res, Partner Site Berlin, Berlin, Germany

[3] Berlin Inst Hlth, Berlin, Germany

[4] Norwegian Univ Sci & Technol NTNU, Dept Circulat & Med Imaging, Cardiac Exercise Res Grp, Trondheim, Norway

[5] German Heart Ctr Berlin, Dept Internal Med & Cardiol, Berlin, Germany

[6] Tech Univ Dresden, Heart Ctr Dresden, Lab Mol & Expt Cardiol, Dresden, Germany

[7] Univ Queensland, Sch Human Movement & Nutr Sci, Brisbane, Qld, Australia

来源：

ESC HEART FAILURE | 2021年 / 8卷 / 03期

关键词：

Excitation-contraction coupling; Exercise; HFpEF; Metabolic syndrome; CA2+ RELEASE; SARCOPLASMIC-RETICULUM; MYOCYTES; MODEL;

D O I：

10.1002/ehf2.13308

中图分类号：

R5 [内科学];

学科分类号：

1002 ; 100201 ;

摘要：

Aims Heart failure with preserved ejection fraction (HFpEF) is an increasingly prevalent disease. Physical exercise has been shown to alter disease progression in HFpEF. We examined cardiomyocyte Ca2+ homeostasis and left ventricular function in a metabolic HFpEF model in sedentary and trained rats following 8 weeks of moderate-intensity continuous training (MICT) or high-intensity interval training (HIIT). Methods and results Left ventricular in vivo function (echocardiography) and cardiomyocyte Ca2+ transients (CaTs) (Fluo-4, confocal) were compared in ZSF-1 obese (metabolic syndrome, HFpEF) and ZSF-1 lean (control) 21- and 28-week-old rats. At 21 weeks, cardiomyocytes from HFpEF rats showed prolonged Ca-2(+) reuptake in cytosolic and nuclear CaTs and impaired Ca2+ release kinetics in nuclear CaTs. At 28 weeks, HFpEF cardiomyocytes had depressed CaT amplitudes, decreased sarcoplasmic reticulum (SR) Ca2+ content, increased SR Ca2+ leak, and elevated diastolic [Ca2+] following increased pacing rate (5 Hz). In trained HFpEF rats (HIIT or MICT), cardiomyocyte SR Ca2+ leak was significantly reduced. While HIIT had no effects on the CaTs (1-5 Hz), MICT accelerated early Ca-2(+) release, reduced the amplitude, and prolonged the CaT without increasing diastolic [Ca2+] or cytosolic Ca2+ load at basal or increased pacing rate (1-5 Hz). MICT lowered pro-arrhythmogenic Ca2+ sparks and attenuated Ca2+-wave propagation in cardiomyocytes. MICT was associated with increased stroke volume in HFpEF. Conclusions In this metabolic rat model of HFpEF at an advanced stage, Ca2+ release was impaired under baseline conditions. HIIT and MICT differentially affected Ca2+ homeostasis with positive effects of MICT on stroke volume, end-diastolic volume, and cellular arrhythmogenicity.

引用

页码：1806 / 1818

页数：13

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