Abstract

Abstract Funding Acknowledgements Type of funding sources: Foundation. Main funding source(s): Dutch Heart Foundation (Hartstichting) Aim Epigenetic processes are essential modulators of macrophage inflammatory responses. We postulate that interference in the epigenetic machinery of macrophages might offer novel approaches to combat atherosclerosis. Here, we investigate the repressive histone modification H3K27Me3 deposited by the polycomb repressive complex 2 (PRC2) with its catalytic component EZH2. We studied the therapeutic potential of macrophage EZH2 inhibition in the context of atherosclerosis. Methods Human monocyte-derived macrophages and murine peritoneal and bone-marrow derived macrophages were treated with the EZH2-specific inhibitor GSK126 and subsequently activated with LPS to mimic TLR4-inflammatory responses. The impact of Ezh2 inhibition on macrophage differentiation and activation compared to vehicle (DMSO) was assessed by RNA-seq, ChIP-seq, flow cytometry, western blot, and ELISA. To study its impact on atherosclerosis, female Ldlr-/- mice on a high-cholesterol diet (9weeks) were treated the last four weeks with GSK126 or control. Results Ezh2 inhibition by GSK126 in vitro lowered global H3K27Me3 levels without altering macrophage viability and differentiation, showcasing effective EZH2 inhibition. RNA-seq revealed that of more than one-third of the LPS-induced genes were significantly downregulated by EZH2 inhibition. Subsequent pathway analysis identified cytokine and interferon signaling, co-stimulation, and cell migration as the top down-regulated pathways (padj<0.05). Furthermore, ChIP-seq revealed considerably altered regulation of H3K27Me3 deposition. Indeed, we confirmed that gene and cytokine expression of the inflammatory mediators IL-6, IL-12, and TNF were reduced. Furthermore, membrane marker expression of co-stimulatory CD40, CD80, and CD86 were significantly decreased. In murine atherosclerosis, we observed a reduction in the Virmani plaque severity score and are currently assessing lesion size and composition. Conclusion Overall, we show that EZH2 inhibition reduces inflammatory responses in human and murine macrophages in vitro. We are currently assessing the impact of EZH2 inhibition on lesion size and composition in murine atherosclerosis. Additionally, we are performing ex vivo experiments on human endarterectomy plaques to assess the therapeutic potential of EZH2 inhibition on human atherosclerosis.

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