Geunho Kwon scite author profile

Macrophages are present in almost all body tissues. They detect and quickly respond to “environmental signals” in the tissue. Macrophages have been associated with numerous beneficial roles, such as host defense, wound healing, and tissue regeneration; however, they have also been linked to the development of diverse illnesses, particularly cancers and autoimmune disorders. Complex signaling, epigenetic, and metabolic pathways drive macrophage training and tolerance. The induced intracellular program differs depending on the type of initial stimuli and the tissue microenvironment. Due to the essential roles of macrophages in homeostatic and their association with the pathogenesis of inflammatory diseases, recent studies have investigated the molecular mechanisms of macrophage training and tolerance. This review discusses the role of factors involved in macrophage training and tolerance, along with the current studies in human diseases.

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Epigenomic Analysis of RAD51 ChIP-seq Data Reveals cis-regulatory Elements Associated with Autophagy in Cancer Cell Lines

Kang

Choi

Moon

et al. 2021

Cancers

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RAD51 is a recombinase that plays a pivotal role in homologous recombination. Although the role of RAD51 in homologous recombination has been extensively studied, it is unclear whether RAD51 can be involved in gene regulation as a co-factor. In this study, we found evidence that RAD51 may contribute to the regulation of genes involved in the autophagy pathway with E-box proteins such as USF1, USF2, and/or MITF in GM12878, HepG2, K562, and MCF-7 cell lines. The canonical USF binding motif (CACGTG) was significantly identified at RAD51-bound cis-regulatory elements in all four cell lines. In addition, genome-wide USF1, USF2, and/or MITF-binding regions significantly coincided with the RAD51-associated cis-regulatory elements in the same cell line. Interestingly, the promoters of genes associated with the autophagy pathway, such as ATG3 and ATG5, were significantly occupied by RAD51 and regulated by RAD51 in HepG2 and MCF-7 cell lines. Taken together, these results unveiled a novel role of RAD51 and provided evidence that RAD51-associated cis-regulatory elements could possibly be involved in regulating autophagy-related genes with E-box binding proteins.

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Transcriptional regulation of IL10 gene in human macrophages

Kwon

Kang

2020

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IL-10 is an anti-inflammatory cytokine with a crucial role in immune homeostasis. Dysregulated production of IL-10 has been linked to certain autoimmune and inflammatory diseases. IL-10 is strongly induced by TLR ligands and suppressed by IFN-γ as part of the synergistic activation of inflammatory genes. However, the molecular mechanisms that regulate expression of the IL10 gene, especially in human macrophages, are incompletely understood. By using epigenomic analysis of ATAC-seq and ChIP-seq analysis we have identified human macrophage-specific enhancers in the IL10 gene locus. In these putative enhancers, we observed that chromatin accessibility and histone acetylation are increased by LPS stimulation. We also found that p300 was frequently recruited to these macrophage-specific cis-regulatory elements (CREs) in LPS-stimulated macrophages. One of these potential LPS-induced enhancers, CRE+6, is located 6kb upstream of the IL10 transcriptional start site and contains transcription factor binding motifs and autoimmune disease-associated SNPs. CRE+6 showed constitutive binding of the macrophage-lineage-determining factor PU.1 and LPS-inducible binding of AP-1 and STAT3. LPS stimulation increased eRNA transcription from CRE+6. The functional relevance of CRE+6 eRNA was confirmed by eRNA-targeted knockdown experiments. Strikingly, the mechanism by which IFN-γ suppresses IL10 expression appeared to be decommissioning of enhancers, as IFN-γ strongly suppressed TLR-induced positive enhancer marks and eRNA transcription. Our study implicates that crucial enhancer elements cooperate with the core promoter in LPS- and IFN-γ-mediated regulation of IL-10 gene transcription in human macrophages.

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Geunho Kwon

Two Faces of Macrophages: Training and Tolerance

Epigenomic Analysis of RAD51 ChIP-seq Data Reveals cis-regulatory Elements Associated with Autophagy in Cancer Cell Lines

Transcriptional regulation of IL10 gene in human macrophages

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