Affiliation:
1. Department of Biology York University Toronto Ontario Canada
2. Revvity Hopkinton Massachusetts USA
3. School of Kinesiology and Health Science York University Toronto Ontario Canada
Abstract
AbstractStrategies to enhance autophagy flux have been suggested to improve outcomes in cardiac ischemic models. We explored the role of adiponectin in mediating cardiac autophagy under ischemic conditions induced by permanent coronary artery ligation. We studied the molecular mechanisms underlying adiponectin's cardio‐protective effects in adiponectin knockout (Ad‐KO) compared with wild‐type (WT) mice subjected to ischemia by coronary artery ligation and H9c2 cardiomyocyte cell line exposed to hypoxia. Systemic infusion of a cathepsin‐B activatable near‐infrared probe as a biomarker for autophagy and detection via noninvasive three‐dimensional fluorescence molecular tomography combined with computerized tomography to quantitate temporal changes, indicated increased activity in the myocardium of WT mice after myocardial infarction which was attenuated in Ad‐KO. Seven days of ischemia increased myocardial adiponectin accumulation and elevated ULK1/AMPK phosphorylation and autophagy assessed by Western blotting for LC3 and p62, an outcome not observed in Ad‐KO mice. Cell death, assessed by TUNEL analysis and the ratio of Bcl‐2:Bax, plus cardiac dysfunction, measured using echocardiography with strain analysis, were exacerbated in Ad‐KO mice. Using cellular models, we observed that adiponectin stimulated autophagy flux in isolated primary adult cardiomyocytes and increased basal and hypoxia‐induced autophagy in H9c2 cells. Real‐time temporal analysis of caspase‐3/7 activation and caspase‐3 Western blot indicated that adiponectin suppressed activation by hypoxia. Hypoxia‐induced mitochondrial reactive oxygen species production and cell death were also attenuated by adiponectin. Importantly, the ability of adiponectin to reduce caspase‐3/7 activation and cell death was not observed in autophagy‐deficient cells generated by CRISPR‐mediated deletion of Atg7. Collectively, our data indicate that adiponectin acts in an autophagy‐dependent manner to attenuate cardiomyocyte caspase‐3/7 activation and cell death in response to hypoxia in vitro and ischemia in mice.
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