Hyperglycemia-induced P300/CBP acetyltransferase drives ZEB2-mediated proinflammatory macrophages and delays wound healing
Soumyajit Roy, Debarun Patra, Palla Ramprasad, Shivam Sharma, Parul Katiyar, Ashvind Bawa, Kanhaiya Singh, Kulbhushan Tikoo, Suman Dasgupta, Chandan K. Sen, Durba Pal
Soumyajit Roy, Debarun Patra, Palla Ramprasad, Shivam Sharma, Parul Katiyar, Ashvind Bawa, Kanhaiya Singh, Kulbhushan Tikoo, Suman Dasgupta, Chandan K. Sen, Durba Pal
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Research Article Dermatology Immunology Inflammation

Hyperglycemia-induced P300/CBP acetyltransferase drives ZEB2-mediated proinflammatory macrophages and delays wound healing

Abstract

Chronic hyperglycemia changes the expression of various transcription factors and mRNA transcripts that impair cellular functionality and delay wound healing. Zinc finger E-box–binding homeobox 2 (ZEB2), a key transcription factor, maintains tissue-specific macrophage identities; however, its role in regulating macrophage polarization during wound healing under hyperglycemic conditions remains unclear. Here, we found that persistent hyperglycemia increases ZEB2 expression in wound macrophages via histone acetylation, contributing to chronic inflammation and delayed wound healing. Exposure to high glucose levels activated P300/CBP, a transcriptional coactivator involved in histone acetylation, which enhanced ZEB2 expression in wound macrophages. The forced expression of ZEB2 shifted macrophage polarity toward a proinflammatory state by upregulating myeloid lineage–directed transcription factors. Conversely, silencing Zeb2 at the wound site reduced hyperglycemia-induced macrophage inflammation. Topical application of C646, an inhibitor of P300, at the wound edges of streptozotocin-induced high-fat diet–fed diabetic mice significantly decreased ZEB2 expression, reduced inflammation, and accelerated wound healing. Therefore, targeted inhibition of P300 represents a promising therapeutic strategy for improving diabetic wound healing by modulating ZEB2-driven inflammation in wound macrophages.

Authors

Soumyajit Roy, Debarun Patra, Palla Ramprasad, Shivam Sharma, Parul Katiyar, Ashvind Bawa, Kanhaiya Singh, Kulbhushan Tikoo, Suman Dasgupta, Chandan K. Sen, Durba Pal

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Figure 2

Zeb2 silencing diminishes polarity of murine macrophages.

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Zeb2 silencing diminishes polarity of murine macrophages. Downregulatio...
Downregulation of proinflammatory status measured by (A) relative mRNA expression profile in Zeb2-silenced (100 nM Zeb2 siRNA) HG-treated RAW264.7 cells. **P < 0.01 by paired, 2-tailed Student’s t test. Relative mRNA expression of MLDTF markers in (B) human wound patients’ samples, (C) d7 mouse wound tissue, and (D) BMDMs isolated from SD- and HFD-fed mice were assessed by qPCR. *P < 0.05, **P < 0.01, ***P < 0.001 by paired, 2-tailed Student’s t test. (E) Relative MLDTF mRNA expression and (F) immunostaining of OCT2 protein (scale bars: 30 μm, n = 3) also assessed in HG-treated RAW264.7 cells. **P < 0.01, ***P < 0.001, #P < 0.0001 by paired, 2-tailed Student’s t test. MLDTF expression was determined by (G) relative mRNA expression analysis and (H) immunostaining images for OCT2 (scale bars: 30 μm, n = 3) in Zeb2-inhibited HG-treated macrophages. **P < 0.01, ***P < 0.001, #P < 0.0001 by paired, 2-tailed Student’s t test. Experiments were repeated 3 times independently. Data are expressed as mean ± standard deviation. NS, not significant; ND, nondiabetic; DFU, diabetic foot ulcer; SD, standard diet; HFD, high-fat diet; PG, physiological glucose level; HG, hyperglycemia.