过氧化物酶体增殖物激活受体-α转基因小鼠脂蛋白脂酶缺失导致心肌病的挽救作用确定了心脏脂质和过氧化物酶体增殖物激活受体-α激活剂的来源。
Rescue of cardiomyopathy in peroxisome proliferator-activated receptor-alpha transgenic mice by deletion of lipoprotein lipase identifies sources of cardiac lipids and peroxisome proliferator-activated receptor-alpha activators.
机构信息
Center for Cardiovascular Research, Washington University School of Medicine, St Louis, Mo., USA.
出版信息
Circulation. 2010 Jan 26;121(3):426-35. doi: 10.1161/CIRCULATIONAHA.109.888735. Epub 2010 Jan 11.
BACKGROUND
Emerging evidence in obesity and diabetes mellitus demonstrates that excessive myocardial fatty acid uptake and oxidation contribute to cardiac dysfunction. Transgenic mice with cardiac-specific overexpression of the fatty acid-activated nuclear receptor peroxisome proliferator-activated receptor-alpha (myosin heavy chain [MHC]-PPARalpha mice) exhibit phenotypic features of the diabetic heart, which are rescued by deletion of CD36, a fatty acid transporter, despite persistent activation of PPARalpha gene targets involved in fatty acid oxidation.
METHODS AND RESULTS
To further define the source of fatty acid that leads to cardiomyopathy associated with lipid excess, we crossed MHC-PPARalpha mice with mice deficient for cardiac lipoprotein lipase (hsLpLko). MHC-PPARalpha/hsLpLko mice exhibit improved cardiac function and reduced myocardial triglyceride content compared with MHC-PPARalpha mice. Surprisingly, in contrast to MHC-PPARalpha/CD36ko mice, the activity of the cardiac PPARalpha gene regulatory pathway is normalized in MHC-PPARalpha/hsLpLko mice, suggesting that PPARalpha ligand activity exists in the lipoprotein particle. Indeed, LpL mediated hydrolysis of very-low-density lipoprotein activated PPARalpha in cardiac myocytes in culture. The rescue of cardiac function in both models was associated with improved mitochondrial ultrastructure and reactivation of transcriptional regulators of mitochondrial function.
CONCLUSIONS
MHC-PPARalpha mouse hearts acquire excess lipoprotein-derived lipids. LpL deficiency rescues myocyte triglyceride accumulation, mitochondrial gene regulatory derangements, and contractile function in MHC-PPARalpha mice. Finally, LpL serves as a source of activating ligand for PPARalpha in the cardiomyocyte.
背景
肥胖和糖尿病患者的新出现的证据表明,心肌中过多的脂肪酸摄取和氧化会导致心脏功能障碍。过表达脂肪酸激活核受体过氧化物酶体增殖物激活受体-α(肌球蛋白重链[MHC]-PPARα 小鼠)的心脏特异性转基因小鼠表现出糖尿病心脏的表型特征,尽管脂肪酸氧化相关的 PPARα 基因靶点持续激活,但删除脂肪酸转运蛋白 CD36 可挽救这种表型。
方法和结果
为了进一步确定导致与脂质过多相关的心肌病的脂肪酸来源,我们将 MHC-PPARα 小鼠与心脏脂蛋白脂肪酶缺乏(hsLpLko)的小鼠进行杂交。与 MHC-PPARα 小鼠相比,MHC-PPARα/hsLpLko 小鼠表现出改善的心脏功能和降低的心肌甘油三酯含量。令人惊讶的是,与 MHC-PPARα/CD36ko 小鼠相反,MHC-PPARα/hsLpLko 小鼠的心脏 PPARα 基因调控途径的活性正常化,这表明 PPARα 配体活性存在于脂蛋白颗粒中。事实上,LpL 介导的极低密度脂蛋白水解在心脏成肌细胞培养物中激活了 PPARα。两种模型中心脏功能的挽救都与改善的线粒体超微结构和线粒体功能转录调节剂的再激活相关。
结论
MHC-PPARα 小鼠心脏获得了过多的脂蛋白衍生脂质。LpL 缺乏症可挽救 MHC-PPARα 小鼠的心肌甘油三酯积累、线粒体基因调控紊乱和收缩功能。最后,LpL 是心肌细胞中 PPARα 的激活配体的来源。
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