Department of Cardiology and Pulmonary Medicine, Heart Research Center, Georg August University Medicine Goettingen, Robert Koch Strasse 40, D-37075, Göttingen, Germany.
J Transl Med. 2013 Jul 11;11:170. doi: 10.1186/1479-5876-11-170.
The adipokine leptin and its receptor are expressed in the heart, and leptin has been shown to promote cardiomyocyte hypertrophy in vitro. Obesity is associated with hyperleptinemia and hypothalamic leptin resistance as well as an increased risk to develop cardiac hypertrophy and heart failure. However, the role of cardiac leptin signaling in mediating the cardiomyopathy associated with increased body weight is unclear, in particular, whether it develops subsequently to cardiac leptin resistance or overactivation of hypertrophic signaling pathways via elevated leptin levels.
The cardiac phenotype of high-fat diet (HFD)-induced obese wildtype (WT) mice was examined and compared to age-matched genetically obese leptin receptor (LepR)-deficient (LepRdb/db) or lean WT mice. To study the role of leptin-mediated STAT3 activation during obesity-induced cardiac remodeling, mice in which tyrosine residue 1138 within LepR had been replaced with a serine (LepRS1138) were also analyzed.
Obesity was associated with hyperleptinemia and elevated cardiac leptin expression in both diet-induced and genetically obese mice. Enhanced LepR and STAT3 phosphorylation levels were detected in hearts of obese WT mice, but not in those with LepR mutations. Moreover, exogenous leptin continued to induce cardiac STAT3 activation in diet-induced obese mice. Although echocardiography revealed signs of cardiac hypertrophy in all obese mice, the increase in left ventricular (LV) mass and diameter was significantly more pronounced in LepRS1138 animals. LepRS1138 mice also exhibited an increased activation of signaling proteins downstream of LepR, including Jak2 (1.8-fold), Src kinase (1.7-fold), protein kinase B (1.3-fold) or C (1.6-fold). Histological analysis of hearts revealed that the inability of leptin to activate STAT3 in LepRdb/db and LepRS1138 mice was associated with reduced cardiac angiogenesis as well as increased apoptosis and fibrosis.
Our findings suggest that hearts from obese mice continue to respond to elevated circulating or cardiac leptin, which may mediate cardioprotection via LepR-induced STAT3 activation, whereas signals distinct from LepR-Tyr1138 promote cardiac hypertrophy. On the other hand, the presence of cardiac hypertrophy in obese mice with complete LepR signal disruption indicates that additional pathways also play a role.
脂肪细胞因子瘦素及其受体在心脏中表达,瘦素已被证明可在体外促进心肌细胞肥大。肥胖与高瘦素血症和下丘脑瘦素抵抗以及发生心肌肥大和心力衰竭的风险增加有关。然而,心脏瘦素信号在介导与体重增加相关的心肌病中的作用尚不清楚,特别是它是否是在心脏瘦素抵抗之后发展的,还是通过升高的瘦素水平过度激活肥大信号通路而发展的。
研究了高脂肪饮食(HFD)诱导肥胖野生型(WT)小鼠的心脏表型,并将其与年龄匹配的遗传性肥胖瘦素受体(LepR)缺陷(LepRdb/db)或瘦 WT 小鼠进行比较。为了研究肥胖诱导的心脏重塑过程中瘦素介导的 STAT3 激活的作用,还分析了 LepR 中酪氨酸残基 1138 被丝氨酸取代的小鼠(LepRS1138)。
肥胖与两种饮食诱导和遗传性肥胖小鼠的高瘦素血症和心脏瘦素表达升高有关。肥胖 WT 小鼠心脏中检测到增强的 LepR 和 STAT3 磷酸化水平,但在 LepR 突变小鼠中未检测到。此外,外源性瘦素继续诱导饮食诱导肥胖小鼠的心脏 STAT3 激活。尽管所有肥胖小鼠的超声心动图都显示出心脏肥大的迹象,但 LepRS1138 动物的左心室(LV)质量和直径增加更为明显。LepRS1138 小鼠还表现出 LepR 下游信号蛋白的激活增加,包括 Jak2(增加 1.8 倍)、Src 激酶(增加 1.7 倍)、蛋白激酶 B(增加 1.3 倍)或 C(增加 1.6 倍)。心脏组织学分析显示,瘦素不能在 LepRdb/db 和 LepRS1138 小鼠中激活 STAT3 与心脏血管生成减少以及细胞凋亡和纤维化增加有关。
我们的研究结果表明,肥胖小鼠的心脏继续对循环或心脏瘦素升高作出反应,这可能通过 LepR 诱导的 STAT3 激活介导心脏保护作用,而与 Tyr1138 无关的信号则促进心肌肥大。另一方面,在完全缺乏 LepR 信号的肥胖小鼠中存在心脏肥大表明其他途径也发挥作用。
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