TNF-α represses fibroblast to myofibroblast transition through the histone methyltransferase Setdb2
Tyler M. Bauer, Kevin D. Mangum, Samuel D. Buckley, James Shadiow, Amrita D. Joshi, Christopher O. Audu, Jadie Y. Moon, Lindsey D. Hughes, Rachel Bogel, Lam C. Tsoi, Qinmennge Li, He Zhang, Steven Kunkel, Johann E. Gudjonsson, Frank M. Davis, Katherine A. Gallagher
Tyler M. Bauer, Kevin D. Mangum, Samuel D. Buckley, James Shadiow, Amrita D. Joshi, Christopher O. Audu, Jadie Y. Moon, Lindsey D. Hughes, Rachel Bogel, Lam C. Tsoi, Qinmennge Li, He Zhang, Steven Kunkel, Johann E. Gudjonsson, Frank M. Davis, Katherine A. Gallagher
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Research Article Dermatology Immunology

TNF-α represses fibroblast to myofibroblast transition through the histone methyltransferase Setdb2

Abstract

Fibroblast to myofibroblast transition is a critical event required for effective tissue repair. In pathologic wound repair processes, such as type 2 diabetes (T2D), fibroblast to myofibroblast transition is impaired. The exact factors that control this transition in wounds are unclear. Here, using human tissue and murine transgenic models, we show that the histone methyltransferase SETDB2 is elevated in diabetic wound fibroblasts and TNF-α represses fibroblast to myofibroblast transition via Setdb2. We identified that TNF-α increases Setdb2 in fibroblasts via a JAK1,3/STAT3 signaling pathway, where pharmacologic or genetic manipulation of this pathway altered Setdb2 in fibroblasts. We also found that fibroblasts treated with pro-inflammatory macrophage supernatants displayed increased Setdb2 and downregulated myofibroblast genes; inhibition of the TNF-α receptor reduced the upregulation of Setdb2. In diabetes, we showed that TNF-α signaling was increased in wound fibroblasts, which functions to increase Setdb2 expression and represses fibroblast to myofibroblast transition. Fibroblast-specific knockdown of SETDB2 and therapeutic inhibition of JAK1,3/STAT3 improved diabetic wound repair, where wound fibroblasts expressed increased myofibroblast genes. This study is the first to our knowledge to identify an epigenetic mechanism for reduced fibroblast to myofibroblast transition in diabetic wounds. Therapeutic targeting of the TNF-α/STAT3/SETDB2 axis in wound fibroblasts may improve diabetic wound healing.

Authors

Tyler M. Bauer, Kevin D. Mangum, Samuel D. Buckley, James Shadiow, Amrita D. Joshi, Christopher O. Audu, Jadie Y. Moon, Lindsey D. Hughes, Rachel Bogel, Lam C. Tsoi, Qinmennge Li, He Zhang, Steven Kunkel, Johann E. Gudjonsson, Frank M. Davis, Katherine A. Gallagher

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Figure 4

Pro-inflammatory macrophages drive Setdb2 expression in fibroblasts.

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Pro-inflammatory macrophages drive Setdb2 expression in fibroblasts. (A)...
(A) Cluster analysis UMAP of single-cell RNA sequencing from human T2D and non-T2D wounds showed 10 unique cell clusters (representative), with both fibroblasts and macrophages identified. River plots depicting receptor-ligand interactions affect outgoing (signal source) TNF-α interactions from macrophages and incoming (signal responder) patterns from fibroblast subtypes. The thickness of the flow indicates the contribution of the cell group or signaling pathway to each latent pattern (n = 10). (B) Setdb2, Acta2, Tagln, Myl9, and Cald1 expression in isolated dermal fibroblasts treated with supernatants from activated BMDMs or control BMDMs. Supernatants were mixed 1:1 with serum-free DMEM and applied to fibroblasts for 4 hours (n = 4 mice/group for fibroblasts, n = 8 mice/group for BMDMs, run in triplicate). (C) Setdb2 expression in isolated dermal fibroblasts treated with supernatants from activated BMDMs or control BMDMs. Supernatants were mixed 1:1 with serum-free DMEM ± etanercept (4 μM) and applied to fibroblasts for 4 hours (n = 4 mice/group for fibroblasts, n = 8 mice/group for BMDMs, run in triplicate). **P < 0.01, ***P < 0.001. Data are presented as the mean ± SEM. Data were first analyzed for normal distribution, and if data passed the normality test, 2-tailed Student’s t test was used. Representative figures are displayed for panel B and C, which were repeated 3 times independently.