Abstract
Atherosclerotic cardiovascular disease (ASCVD), the leading cause of mortality worldwide, is driven by endothelial cell inflammatory activation and counter-balanced by anti-inflammatory transcription factors Klf2 and Klf4 (Klf2/4). Understanding vascular endothelial inflammation to develop effective treatments is thus essential. Here, we identify, Polycomb Repressive Complex (PRC) 2, which blocks gene transcription by trimethylating histone3 Lysine27 in gene promoter/enhancers, as a potent, therapeutically targetable determinant of vascular inflammation and ASCVD progression. Bioinformatics identified PRC2 as a direct suppressor of Klf2/4 transcription. Klf2/4 transcription requires Notch signaling, which reverses PRC2 modification of Klf2/4 promoter/enhancers. PRC2 activity is elevated in human ASCVD endothelium. Treating mice with established ASCVD with tazemetostat, an FDA approved pharmacological inhibitor of PRC2, slowed plaque progression by 50% and drastically improved markers of plaque stability. This study elucidates a fundamental mechanism of vascular inflammation, thus identifying a potential method for treating ASCVD and possibly other vascular inflammatory diseases.