期刊
JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY
卷 122, 期 -, 页码 58-68出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.yjmcc.2018.08.006
关键词
IGF-IIR; Rab9; ERK; Drpl; Mitophagy
资金
- Taiwan Ministry of Health and Welfare Clinical Trial and Research Center of Excellence [MOHW107-TDU-B-212-123004]
- Ministry of Science and Technology [MOST 104-2320-B-039-052]
Mitochondria] dysfunction is a major contributor to myocyte loss and the development of heart failure. Myocytes have quality control mechanisms to retain functional mitochondria by removing damaged mitochondria via specialized autophagy, i.e., mitophagy. The underlying mechanisms of fission affect the survival of cardiomyocytes, and left ventricular function in the heart is poorly understood. Here, we demonstrated the direct effect and potential mechanisms of mitochondrial functional defects associated with abnormal mitochondrial dynamics in heart failure. We observed that IGF-IIR signaling produced significant changes in mitochondrial morphology and function; such changes were associated with the altered expression and distribution of dynamin-related protein (Drpl) and mitofusin (Mfn2). IGF-IIR signaled extracellular signal -regulated kinase (ERK) activation to promote Drpl phosphorylation and translocation to mitochondria for mitochondrial fission and mitochondrial dysfunction. Moreover, IGF-IIR signaling triggered Rab9-dependent autophagosome formation by the JNK-mediated phosphorylation of Bcl-2 at serine 87 and promoted ULK1/Beclin 1 -dependent autophagic membrane formation. Excessive mitochondrial fission by Drpl enhanced the Rab9-dependent autophagosome recognition and engulfing of damaged mitochondria and eventually decreased cardiomyocyte viability. Therefore, these results demonstrated the connection between Rab9-dependent autophagosomes and mitochondrial fission in cardiac myocytes, which provides a potential therapeutic strategy for treating heart disease.
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