Highlights d Myeloid-specific overexpression of YAP promotes the development of atherosclerosis d IL-1b induces macrophage YAP nuclear localization and protein stability d Macrophage YAP regulates chemokine production and monocyte/macrophage recruitment d Macrophage YAP is upregulated in patients and mouse atherosclerotic lesions
Atherosclerosis preferentially occurs in atheroprone vasculature where human umbilical vein endothelial cells (HUVECs) are exposed to disturbed flow. Disturbed flow is associated with vascular inflammation and focal distribution. Recent studies have revealed the involvement of epigenetic regulation in atherosclerosis progression. N6-methyladenosine (m6A) is the most prevalent internal modification of eukaryotic mRNA, but its function in endothelial atherogenic progression remains unclear. Here, we show that m6A mediates the EGFR signaling pathway during EC activation to regulate the atherosclerotic process. Oscillatory stress (OS) reduced the expression of METTL3, the primary m6A methyltransferase. Through m6A sequencing and functional studies, we determined that m6A mediates the mRNA decay of the vascular pathophysiology gene EGFR which leads to EC dysfunction. m6A modification of the EGFR 3'UTR accelerated its mRNA degradation. Double mutation of the EGFR 3'UTR abolished METTL3-induced luciferase activity. Adenovirus-mediated METTL3 overexpression significantly reduced EGFR activation and endothelial dysfunction in the presence of OS. Furthermore, TSP-1, an EGFR ligand, was specifically expressed in atheroprone regions without being affected by METTL3. Inhibition of the TSP-1/EGFR axis by using shRNA and AG1478 significantly ameliorated atherogenesis. Overall, our study revealed that METTL3 alleviates endothelial atherogenic progression through m6A-dependent stabilization of EGFR mRNA, highlighting the important role of RNA transcriptomics in atherosclerosis regulation.
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