Inhibition of Na+-H+ Exchange Prevents Hypertrophy, Fibrosis, and Heart Failure in &bgr;1-Adrenergic Receptor Transgenic Mice

S. Engelhardt, L. Hein, U. Keller, Kerstin Klämbt, M. Lohse
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引用次数: 193

Abstract

Chronic stimulation of the &bgr;1-adrenergic receptor leads to hypertrophy and heart failure in &bgr;1-adrenergic receptor transgenic mice and contributes to disease progression in heart failure patients. The cellular mechanisms underlying these detrimental effects are largely unknown. In this study, we have identified the cardiac Na+-H+ exchanger (NHE1) as a novel mediator of adrenergically induced heart failure. &bgr;1-Adrenergic receptor transgenic mice showed upregulation of both NHE1 mRNA (+140±6%) and protein (+42±19%). In order to test whether increased NHE1 is causally related to &bgr;1-adrenergic–induced hypertrophy, fibrosis, and heart failure, &bgr;1-adrenergic receptor transgenic (TG) and wild-type (WT) littermates were treated with a diet containing 6000 ppm of the NHE1 inhibitor cariporide or control chow for 8 months. There was significant hypertrophy of cardiac myocytes in &bgr;1-adrenergic receptor transgenic mice (2.3-fold increase in myocyte cross-sectional area), which was virtually absent in cariporide-fed animals. Interstitial fibrosis was prominent throughout the left ventricular wall in nontreated &bgr;1-adrenergic receptor transgenic mice (4.8-fold increase in collagen volume fraction); cariporide treatment completely prevented this development of fibrosis. Left ventricular catheterization showed that cariporide also prevented the loss of contractile function in &bgr;1-adrenergic receptor transgenic mice: whereas untreated transgenic mice showed a significant decrease in left ventricular contractility (5250±570 mm Hg/s TG versus 7360±540 mm Hg/s WT, dp/dtmax), this decrease was completely prevented by cariporide (8150±520 mm Hg/s TG cariporide). Inhibition of NHE1 prevented the development of heart failure in &bgr;1-receptor transgenic mice. We conclude that the cardiac Na+-H+ exchanger 1 is essential for the detrimental cardiac effects of chronic &bgr;1-receptor stimulation in the heart.
抑制Na+-H+交换可预防1-肾上腺素能受体转基因小鼠肥大、纤维化和心力衰竭
慢性刺激&bgr;1-肾上腺素能受体导致&bgr;1-肾上腺素能受体转基因小鼠肥厚和心力衰竭,并有助于心力衰竭患者的疾病进展。这些有害影响背后的细胞机制在很大程度上是未知的。在这项研究中,我们已经确定了心脏Na+-H+交换器(NHE1)作为肾上腺素能诱导心力衰竭的新介质。1-肾上腺素能受体转基因小鼠NHE1 mRNA表达上调(+140±6%),蛋白表达上调(+42±19%)。为了测试NHE1升高是否与1-肾上腺素能诱导的肥大、纤维化和心力衰竭有因果关系,我们将转基因(TG)和野生型(WT)幼崽分别喂食含有6000 ppm NHE1抑制剂cariporide或对照饲料8个月。1-肾上腺素能受体转基因小鼠心肌细胞明显肥大(心肌细胞横截面积增加2.3倍),而在cariporde喂养的动物中几乎没有这种现象。未处理的&bgr;1-肾上腺素能受体转基因小鼠左室壁间质纤维化明显(胶原体积分数增加4.8倍);Cariporide治疗完全阻止了纤维化的发展。左心室导管检查显示,卡利维亚还能防止1-肾上腺素能受体转基因小鼠的收缩功能丧失:未经治疗的转基因小鼠左心室收缩功能显著下降(TG为5250±570 mm Hg/s, WT为7360±540 mm Hg/s, dp/dtmax),卡利维亚(TG为8150±520 mm Hg/s)完全阻止了这种下降。抑制NHE1可防止&bgr;1受体转基因小鼠心力衰竭的发生。我们得出结论,心脏Na+-H+交换器1对心脏慢性&bgr;1受体刺激的有害心脏效应至关重要。
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