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在缺血性左心室功能障碍动物模型中,PPARδ信号通路的激活可改善骨骼肌氧化代谢和耐力功能。

Activation of PPARδ signaling improves skeletal muscle oxidative metabolism and endurance function in an animal model of ischemic left ventricular dysfunction.

作者信息

Zizola Cynthia, Kennel Peter J, Akashi Hirokazu, Ji Ruiping, Castillero Estibaliz, George Isaac, Homma Shunichi, Schulze P Christian

机构信息

Department of Medicine, Division of Cardiology, Columbia University Medical Center, New York, New York; and.

Division of Cardiothoracic Surgery, Columbia University Medical Center, New York, New York.

出版信息

Am J Physiol Heart Circ Physiol. 2015 May 1;308(9):H1078-85. doi: 10.1152/ajpheart.00679.2014. Epub 2015 Feb 20.

DOI:10.1152/ajpheart.00679.2014
PMID:25713305
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4551122/
Abstract

Exercise intolerance in heart failure has been linked to impaired skeletal muscle oxidative capacity. Oxidative metabolism and exercise capacity are regulated by PPARδ signaling. We hypothesized that PPARδ stimulation reverts skeletal muscle oxidative dysfunction. Myocardial infarction (MI) was induced in C57BL/6 mice and the development of ventricular dysfunction was monitored over 8 wk. Mice were randomized to the PPARδ agonist GW501516 (5 mg/kg body wt per day for 4 wk) or placebo 8 wk post-MI. Muscle function was assessed through running tests and grip strength measurements. In muscle, we analyzed muscle fiber cross-sectional area and fiber types, metabolic gene expression, fatty acid (FA) oxidation and ATP content. Signaling pathways were studied in C2C12 myotubes. FA oxidation and ATP levels decreased in muscle from MI mice compared with sham- operated mice. GW501516 administration increased oleic acid oxidation levels in skeletal muscle of the treated MI group compared with placebo treatment. This was accompanied by transcriptional changes including increased CPT1 expression. Further, the PPARδ-agonist improved running endurance compared with placebo. Cell culture experiments revealed protective effects of GW501516 against the cytokine-induced decrease of FA oxidation and changes in metabolic gene expression. Skeletal muscle dysfunction in HF is associated with impaired PPARδ signaling and treatment with the PPARδ agonist GW501516 corrects oxidative capacity and FA metabolism and improves exercise capacity in mice with LV dysfunction. Pharmacological activation of PPARδ signaling could be an attractive therapeutic intervention to counteract the progressive skeletal muscle dysfunction in HF.

摘要

心力衰竭中的运动不耐受与骨骼肌氧化能力受损有关。氧化代谢和运动能力受PPARδ信号通路调控。我们假设PPARδ刺激可逆转骨骼肌氧化功能障碍。在C57BL/6小鼠中诱导心肌梗死(MI),并在8周内监测心室功能障碍的发展。MI后8周,将小鼠随机分为PPARδ激动剂GW501516组(每天5 mg/kg体重,共4周)或安慰剂组。通过跑步测试和握力测量评估肌肉功能。在肌肉中,我们分析了肌纤维横截面积和纤维类型、代谢基因表达、脂肪酸(FA)氧化和ATP含量。在C2C12肌管中研究信号通路。与假手术小鼠相比,MI小鼠肌肉中的FA氧化和ATP水平降低。与安慰剂治疗相比,给予GW501516可提高治疗的MI组小鼠骨骼肌中的油酸氧化水平。这伴随着转录变化,包括CPT1表达增加。此外,与安慰剂相比,PPARδ激动剂改善了跑步耐力。细胞培养实验揭示了GW501516对细胞因子诱导的FA氧化降低和代谢基因表达变化的保护作用。HF中的骨骼肌功能障碍与PPARδ信号通路受损有关,用PPARδ激动剂GW501516治疗可纠正氧化能力和FA代谢,并改善左室功能障碍小鼠的运动能力。PPARδ信号通路的药理学激活可能是一种有吸引力的治疗干预措施,以对抗HF中进行性骨骼肌功能障碍。

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