医学
表观遗传学
炎症
转录因子
免疫学
细胞生物学
巨噬细胞
巨噬细胞极化
表型
癌症研究
遗传学
基因
体外
生物
作者
Tatyana Kuznetsova,Koen H.M. Prange,Christopher K. Glass,Menno P.J. de Winther
标识
DOI:10.1038/s41569-019-0265-3
摘要
Monocytes and macrophages provide defence against pathogens and danger signals. These cells respond to stimulation in a fast and stimulus-specific manner by utilizing complex cascaded activation by lineage-determining and signal-dependent transcription factors. The complexity of the functional response is determined by interactions between triggered transcription factors and depends on the microenvironment and interdependent signalling cascades. Dysregulation of macrophage phenotypes is a major driver of various diseases such as atherosclerosis, rheumatoid arthritis and type 2 diabetes mellitus. Furthermore, exposure of monocytes, which are macrophage precursor cells, to certain stimuli can lead to a hypo-inflammatory tolerized phenotype or a hyper-inflammatory trained phenotype in a macrophage. In atherosclerosis, macrophages and monocytes are exposed to inflammatory cytokines, oxidized lipids, cholesterol crystals and other factors. All these stimuli induce not only a specific transcriptional response but also interact extensively, leading to transcriptional and epigenetic heterogeneity of macrophages in atherosclerotic plaques. Targeting the epigenetic landscape of plaque macrophages can be a powerful therapeutic tool to modulate pro-atherogenic phenotypes and reduce the rate of plaque formation. In this Review, we discuss the emerging role of transcription factors and epigenetic remodelling in macrophages in the context of atherosclerosis and inflammation, and provide a comprehensive overview of epigenetic enzymes and transcription factors that are involved in macrophage activation. This Review summarizes the role of transcription factors and epigenetic remodelling in modulating macrophage plasticity, provides an overview of the cooperative action of transcription factors and epigenetic modifiers controlling macrophage activation in the context of atherosclerosis and inflammation, and highlights the therapeutic potential of modulating transcription factor activity.
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