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  • Title: Irf1- and Egr1-activated transcription plays a key role in macrophage polarization: A multiomics sequencing study with partial validation.
    Author: Chu YB, Li J, Jia P, Cui J, Zhang R, Kang X, Lv M, Zhang S.
    Journal: Int Immunopharmacol; 2021 Oct; 99():108072. PubMed ID: 34426111.
    Abstract:
    BACKGROUND: Macrophage polarization has a causal role in the pathogenesis and resolution of various clinical diseases. DNA-binding transcription factors (TFs) have been identified as essential factors during gene transcription. Better insight into the TFs that regulate macrophage polarization could provide novel therapeutic targets. METHODS: IFN-γ (50 ng/mL) or IL4 (20 ng/mL) was utilized to stimulate bone marrow-derived macrophages from mice for 24 h for M1- and M2-polarized macrophage model construction, respectively. First, ATAC-seq (Assay for Targeting Accessible-Chromatin with high throughout sequencing) and motif analysis were conducted to identify potential transcription factors (TFs) involved in M1 and M2 macrophage polarization. Second, essential TFs were identified through RNA-seq, after which, their expression was compared between M0-polarized and M1/M2-polarized macrophages. Furthermore, a multiomic analysis of RNA-seq (siRNA knock down of the identified TFs), ChIP-seq and ATAC-seq was utilized to explore the TF-regulated molecular network. GO and KEGG analyses were used to expound the main functions of the TF-regulated molecular network. Finally, the top 5 TF-regulated genes were validated through flow cytometry, ELISA and qPCR. The cut-off values for high-throughput sequencing and qPCR were FDR < 0.05 and P < 0.05, respectively. RESULTS: Compared with M0 macrophages, 10,771 and 4,848 peaks were identified by ATAC-seq during M1 and M2 macrophage polarization, respectively (FDR < 0.05). Fifty and 62 TF binding motifs were identified for the TFs that participate in M1 and M2 macrophage polarization, respectively. The most significantly highly expressed TFs in M1 and M2 macrophages were identified by RNA-seq as Irf1 and Egr1, with LogFC values of 3.2 and 2.8, respectively. Multiomic analyses further found that Irf1 regulated the transcription of 90 genes and that Egr1 regulated the transcription of 116 genes. The Irf1-regulated molecular network played a key role in the inflammatory response and viral defence of M1 macrophages, and 116 Egr1-regulated genes included anti-inflammatory and cell proliferation genes. Validation experiments indicated that IFN-γ-induced Gbp5, Nos2, CD86, Cxcl10 and Cxcl5 expression was significantly downregulated in siIrf1-BMDMs, and IL4-induced Itgax, Nipal1, Bhlhe40, CD206 and Ffar4 expression was significantly downregulated in siEgr1-BMDMs (P < 0.05). CONCLUSIONS: Through multiomic analyses of epigenetic sequencing and RNA-seq with partial validation, the current study found that Irf1- and Egr1-induced transcription plays key roles in M1 and M2 macrophage polarization, respectively.
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