Abstract

Chronic lipid overnutrition has been demonstrated to promote cardiac dysfunction resulting from metabolic derangement, inflammation, and fibrosis. Oleoylethanolamide (OEA), an endogenous peroxisome proliferator activating receptor (PPAR)-α agonist, has been extensively studied for its metabolic properties.The aim of this study was to determine if OEA has beneficial effects on high-fat diet (HFD)-induced cardiac disruption in obese mice, focusing on the underlying pathological mechanisms.OEA treatment restores the metabolic pattern, improving serum glycaemic and lipid profile. OEA also reduces heart weight and serum creatine kinase-myocardial band (CK-MB), a marker of cardiac damage. Accordingly, OEA modulates cardiac metabolism, increasing insulin signaling and reducing lipid accumulation. OEA increases AMPK and AKT phosphorylation, converging in the rise of AS160 activation and glucose transporter (GLUT)4 protein level. Moreover, OEA reduces the transcription of the cardiac fatty acid transporter CD36 and fatty acid synthase and increases PPAR-α mRNA levels. Adiponectin and meteorite-like protein transcription levels were significantly reduced by OEA in HFD mice, as well as those of inflammatory cytokines and pro-fibrotic markers. An increased autophagic process was also shown, contributing to OEA's cardioprotective effects. Metabolomic analyses of cardiac tissue revealed the modulation of different lipids, including triglycerides, glycerophospholipids and sphingomyelins by OEA treatment. In vitro experiments on HL-1 cardiomyocytes showed OEA's capability in reducing inflammation and fibrosis following palmitate challenge, demonstrating a direct activity of OEA on cardiac cells, mainly mediated by PPAR-α activation.Our results indicate OEA as a potential therapeutic to restrain cardiac damage associated with metabolic disorders.

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