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运动训练通过恢复钙稳态来逆转由CaMKIIδC过表达诱导的心肌功能障碍。

Exercise training reverses myocardial dysfunction induced by CaMKIIδC overexpression by restoring Ca2+ homeostasis.

作者信息

Høydal Morten A, Stølen Tomas O, Kettlewell Sarah, Maier Lars S, Brown Joan Heller, Sowa Tomas, Catalucci Daniele, Condorelli Gianluigi, Kemi Ole J, Smith Godfrey L, Wisløff Ulrik

机构信息

Norwegian University of Science and Technology, K. G. Jebsen Centre of Exercise in Medicine, Trondheim, Norway;

Institute of Cardiovascular and Medical Sciences, University of Glasgow, Glasgow, United Kingdom;

出版信息

J Appl Physiol (1985). 2016 Jul 1;121(1):212-20. doi: 10.1152/japplphysiol.00188.2016. Epub 2016 May 26.

DOI:10.1152/japplphysiol.00188.2016
PMID:27231311
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4967256/
Abstract

Several conditions of heart disease, including heart failure and diabetic cardiomyopathy, are associated with upregulation of cytosolic Ca(2+)/calmodulin-dependent protein kinase II (CaMKIIδC) activity. In the heart, CaMKIIδC isoform targets several proteins involved in intracellular Ca(2+) homeostasis. We hypothesized that high-intensity endurance training activates mechanisms that enable a rescue of dysfunctional cardiomyocyte Ca(2+) handling and thereby ameliorate cardiac dysfunction despite continuous and chronic elevated levels of CaMKIIδC CaMKIIδC transgenic (TG) and wild-type (WT) mice performed aerobic interval exercise training over 6 wk. Cardiac function was measured by echocardiography in vivo, and cardiomyocyte shortening and intracellular Ca(2+) handling were measured in vitro. TG mice had reduced global cardiac function, cardiomyocyte shortening (47% reduced compared with WT, P < 0.01), and impaired Ca(2+) homeostasis. Despite no change in the chronic elevated levels of CaMKIIδC, exercise improved global cardiac function, restored cardiomyocyte shortening, and reestablished Ca(2+) homeostasis to values not different from WT. The key features to explain restored Ca(2+) homeostasis after exercise training were increased L-type Ca(2+) current density and flux by 79 and 85%, respectively (P < 0.01), increased sarcoplasmic reticulum (SR) Ca(2+)-ATPase (SERCA2a) function by 50% (P < 0.01), and reduced diastolic SR Ca(2+) leak by 73% (P < 0.01), compared with sedentary TG mice. In conclusion, exercise training improves global cardiac function as well as cardiomyocyte function in the presence of a maintained high CaMKII activity. The main mechanisms of exercise-induced improvements in TG CaMKIIδC mice are mediated via increased L-type Ca(2+) channel currents and improved SR Ca(2+) handling by restoration of SERCA2a function in addition to reduced diastolic SR Ca(2+) leak.

摘要

包括心力衰竭和糖尿病性心肌病在内的几种心脏病状况与胞质Ca(2+)/钙调蛋白依赖性蛋白激酶II(CaMKIIδC)活性上调有关。在心脏中,CaMKIIδC亚型作用于几种参与细胞内Ca(2+)稳态的蛋白质。我们推测,高强度耐力训练会激活一些机制,这些机制能够挽救功能失调的心肌细胞Ca(2+)处理能力,从而尽管CaMKIIδC持续慢性升高,仍能改善心脏功能障碍。CaMKIIδC转基因(TG)小鼠和野生型(WT)小鼠进行了为期6周的有氧间歇运动训练。通过体内超声心动图测量心脏功能,体外测量心肌细胞缩短和细胞内Ca(2+)处理情况。TG小鼠的整体心脏功能降低,心肌细胞缩短(与WT相比降低47%,P < 0.01),且Ca(2+)稳态受损。尽管CaMKIIδC的慢性升高水平没有变化,但运动改善了整体心脏功能,恢复了心肌细胞缩短,并将Ca(2+)稳态恢复到与WT无异的值。与久坐的TG小鼠相比,运动训练后Ca(2+)稳态恢复的关键特征分别是L型Ca(2+)电流密度和通量增加79%和85%(P < 0.01),肌浆网(SR)Ca(2+)-ATP酶(SERCA2a)功能增加50%(P < 0.01),以及舒张期SR Ca(2+)泄漏减少73%(P < 0.01)。总之,在CaMKII活性持续较高的情况下,运动训练可改善整体心脏功能以及心肌细胞功能。运动诱导TG CaMKIIδC小鼠改善的主要机制是通过增加L型Ca(2+)通道电流以及除了减少舒张期SR Ca(2+)泄漏外,通过恢复SERCA2a功能改善SR Ca(2+)处理。

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