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脂联素通过 APPL1-AMPK 信号通路发挥心脏的有益代谢作用。

An APPL1-AMPK signaling axis mediates beneficial metabolic effects of adiponectin in the heart.

机构信息

Dept. of Biology, York Univ., Toronto, Ontario, Canada.

出版信息

Am J Physiol Endocrinol Metab. 2010 Nov;299(5):E721-9. doi: 10.1152/ajpendo.00086.2010. Epub 2010 Aug 24.

DOI:10.1152/ajpendo.00086.2010
PMID:20739511
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2980363/
Abstract

Adiponectin promotes cardioprotection by various mechanisms, and this study used primary cardiomyocytes and the isolated working perfused heart to investigate cardiometabolic effects. We show in adult cardiomyocytes that adiponectin increased CD36 translocation and fatty acid uptake as well as insulin-stimulated glucose transport and Akt phosphorylation. Coimmunoprecipitation showed that adiponectin enhanced association of AdipoR1 with APPL1, subsequent binding of APPL1 with AMPKα2, which led to phosphorylation and inhibition of ACC and increased fatty acid oxidation. Using siRNA to effectively knockdown APPL1 in neonatal cardiomyocytes, we demonstrated an essential role for APPL1 in mediating increased fatty acid uptake and oxidation by adiponectin. Importantly, enhanced fatty acid oxidation in conjunction with AMPK and ACC phosphorylation was also observed in the isolated working heart. Despite increasing fatty acid oxidation and myocardial oxygen consumption, adiponectin increased hydraulic work and maintained cardiac efficiency. In summary, the present study documents several beneficial metabolic effects mediated by adiponectin in the heart and provides novel insight into the mechanisms behind these effects, in particular the importance of APPL1.

摘要

脂联素通过多种机制促进心脏保护,本研究使用原代心肌细胞和分离的工作心脏灌流系统来研究心脏代谢的影响。我们在成年心肌细胞中发现,脂联素增加了 CD36 的易位和脂肪酸摄取,以及胰岛素刺激的葡萄糖转运和 Akt 磷酸化。共免疫沉淀显示,脂联素增强了 AdipoR1 与 APPL1 的结合,随后 APPL1 与 AMPKα2 结合,导致 ACC 的磷酸化和抑制,增加脂肪酸氧化。使用 siRNA 有效地在乳鼠心肌细胞中敲低 APPL1,我们证明了 APPL1 在介导脂联素增加的脂肪酸摄取和氧化中起着重要作用。重要的是,在分离的工作心脏中也观察到了增强的脂肪酸氧化以及 AMPK 和 ACC 的磷酸化。尽管增加了脂肪酸氧化和心肌耗氧量,脂联素增加了水力工作并维持了心脏效率。总之,本研究记录了脂联素在心脏中介导的几种有益的代谢效应,并为这些效应背后的机制提供了新的见解,特别是 APPL1 的重要性。

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