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AdipoRon ameliorates chronic ethanol induced cardiac necroptosis by reducing ceramide mediated mtROS

Chronic ethanol (EtOH) consumption has been widely recognized as a significant contributor to cardiotoxicity. However, no specific treatment is currently available to ameliorate chronic ethanol induced cardiotoxicity. Adiponectin receptor agonist AdipoRon exerts protective effects in multiple organs...

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Published in:Free radical biology & medicine 2025-03, Vol.229, p.237-250
Main Authors: Qian, Yile, Qi, Yanyu, Lin, Junyi, Zhang, Tianyi, Mo, Lingjie, Xue, Qiupeng, Zheng, Nianchang, Niu, Yaqin, Dong, Xiaoru, Shi, Yan, Jiang, Yan
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Language:English
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Summary:Chronic ethanol (EtOH) consumption has been widely recognized as a significant contributor to cardiotoxicity. However, no specific treatment is currently available to ameliorate chronic ethanol induced cardiotoxicity. Adiponectin receptor agonist AdipoRon exerts protective effects in multiple organs through alleviating lipotoxicity. Our previous study showed that chronic ethanol consumption increased de novo ceramide synthesis and necroptosis in myocardium. In this study, we investigated the role of AdipoRon on ceramide metabolism and necroptosis in chronic ethanol-treated myocardium. Eight-week-old C57/BL6J mice were fed with a Lieber-Decarli diet containing vehicle or AdipoRon for 12 weeks. Cardiac function, histology and oxidative stress were assessed. We found that chronic ethanol treatment decreased expression of AdipoR2 in myocardium and H9c2 cells, whereas AdipoRon improved cardiac function, reduced myocardium ceramide levels and suppressed necroptosis. By pharmacological interventions, RNA interference and point mutations in AdipoR2, we demonstrated that AdipoRon reduced ceramide levels through PPARα mediated lipid metabolism rather than AdipoR2's ceramidase activity. Using transmission electron microscope and reactive oxygen species (ROS) staining, we showed that chronic ethanol induced myocardium mitochondria damage and mitochondrial reactive oxygen species (mtROS) accumulation. Meanwhile, we found that AdipoRon ameliorated chronic ethanol induced cardiac necroptosis via the SIRT3-SOD2-mtROS pathway. Moreover, C6 ceramide treatment recapitulated chronic ethanol in inducing mtROS and necroptosis, whereas the ceramide synthesis inhibitors myriocin (MYR) and fumonisin B1 (FB1) attenuated chronic ethanol induced mtROS and necroptosis. Collectively, AdipoRon ameliorates chronic ethanol induced cardiac necroptosis by reducing ceramide de novo synthesis and mtROS, which highlights the therapeutic potential of targeting ceramide metabolism and oxidative stress pathways in treating ethanol induced cardiotoxicity. [Display omitted] •AdipoRon ameliorated chronic ethanol induced cardiac dysfunction through AdipoR2.•AdipoRon reduced cardiac ceramide accumulation through PPARα mediated lipid metabolism.•Ceramide induced cardiac necroptosis through SIRT3-SOD2-mtROS axis.
ISSN:0891-5849
1873-4596
1873-4596
DOI:10.1016/j.freeradbiomed.2025.01.018