Epigenetic regulation of the PGE2 pathway modulates macrophage phenotype in normal and pathologic wound repair
Frank M. Davis, … , Bethany B. Moore, Katherine A. Gallagher
Frank M. Davis, … , Bethany B. Moore, Katherine A. Gallagher
Published September 3, 2020
Citation Information: JCI Insight. 2020;5(17):e138443. https://doi.org/10.1172/jci.insight.138443.
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Research Article Endocrinology Inflammation

Epigenetic regulation of the PGE2 pathway modulates macrophage phenotype in normal and pathologic wound repair

Abstract

Macrophages are a primary immune cell involved in inflammation, and their cell plasticity allows for transition from an inflammatory to a reparative phenotype and is critical for normal tissue repair following injury. Evidence suggests that epigenetic alterations play a critical role in establishing macrophage phenotype and function during normal and pathologic wound repair. Here, we find in human and murine wound macrophages that cyclooxygenase 2/prostaglandin E2 (COX-2/PGE2) is elevated in diabetes and regulates downstream macrophage-mediated inflammation and host defense. Using single-cell RNA sequencing of human wound tissue, we identify increased NF-κB–mediated inflammation in diabetic wounds and show increased COX-2/PGE2 in diabetic macrophages. Further, we identify that COX-2/PGE2 production in wound macrophages requires epigenetic regulation of 2 key enzymes in the cytosolic phospholipase A2/COX-2/PGE2 (cPLA2/COX-2/PGE2) pathway. We demonstrate that TGF-β–induced miRNA29b increases COX-2/PGE2 production via inhibition of DNA methyltransferase 3b–mediated hypermethylation of the Cox-2 promoter. Further, we find mixed-lineage leukemia 1 (MLL1) upregulates cPLA2 expression and drives COX-2/PGE2. Inhibition of the COX-2/PGE2 pathway genetically (Cox2fl/fl Lyz2Cre+) or with a macrophage-specific nanotherapy targeting COX-2 in tissue macrophages reverses the inflammatory macrophage phenotype and improves diabetic tissue repair. Our results indicate the epigenetically regulated PGE2 pathway controls wound macrophage function, and cell-targeted manipulation of this pathway is feasible to improve diabetic wound repair.

Authors

Frank M. Davis, Lam C. Tsoi, Rachael Wasikowski, Aaron denDekker, Amrita Joshi, Carol Wilke, Hongping Deng, Sonya Wolf, Andrea Obi, Steven Huang, Allison C. Billi, Scott Robinson, Jay Lipinski, William J. Melvin, Christopher O. Audu, Stephan Weidinger, Steven L. Kunkel, Andrew Smith, Johann E. Gudjonsson, Bethany B. Moore, Katherine A. Gallagher

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Figure 5

Transcription profiling demonstrates upregulation of inflammatory pathways in human diabetic wound macrophages.

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Transcription profiling demonstrates upregulation of inflammatory pathwa...
(A) Graphs demonstrate the highly enriched Gene Ontology (GO) terms in the bulk RNA transcriptomes of diabetic wound tissue (n = 4) compared with healthy controls (n = 38). (B) Heatmap illustrating the expression profiles for selective genes (rows) across different samples (columns; stratified by different skin types) from cellular response to IL-1β, acute inflammatory response, and regulation of NF-κB signaling GO pathway analysis with upregulation in diabetic (n = 4) compared with healthy controls (n = 38). (C) Cluster analysis using the UMAP technique of single-cell sequencing from human T2D and nondiabetic wound samples revealed 10 distinct cell clusters (representative, performed in triplicate). (D) GO biological process enrichment and KEGG pathway analysis of macrophage DEGs in T2D samples. KEGG pathways are denoted with *. The combined score metric corresponds to the P value (2-sided Fisher exact test) multiplied by the Z score of the deviation from the expected rank, and q values were determined by Benjamini-Hochberg correction. (E) Dot plot demonstrating COX-2 and PGE Synthase 1 expression within macrophage population in human T2D and nondiabetic control samples. Dot size corresponds to proportion of cells within the group expressing each transcript, and dot color corresponds to expression level.