Abstract
Endothelial dysfunction is a crucial physiopathological mechanism for cardiovascular diseases that results from the harmful impact of metabolic disorders. Irisin, a recently discovered adipomyokine, has been shown to exert beneficial metabolic effects by increasing energy consumption, improving insulin sensitivity, and reducing the proinflammatory milieu. Multiple preclinical models have assessed irisin's possible role in the development of endothelial dysfunction, displaying that treatment with exogenous irisin can decrease the production of oxidative stress mediators by up-regulating Akt/mTOR/Nrf2 pathway, promote endothelial-dependent vasodilatation through the activation of AMPK-PI3K-AkteNOS pathway, and increase the endothelial cell viability by activation of ERK proliferation pathway and downregulation of Bad/Bax/Caspase 3 pro-apoptotic pathway. However, there is scarce evidence of these mechanisms in clinical studies, and available results are controversial. Some have shown negative correlations of irisin levels with the burden of coronary atherosclerosis and leukocyte adhesion molecules' expression. Others have demonstrated associations between irisin levels and increased atherosclerosis risk and higher carotid intima-media thickness. Since the role of irisin in endothelial damage remains unclear, in this review, we compare, contrast, and integrate the current knowledge from preclinical and clinical studies to elucidate the potential preventive role and the underlying mechanisms and pathways of irisin in endothelial dysfunction. This review also comprises original figures to illustrate these mechanisms.
