TABLE 1.
Mechanisms and clinical values of histone modification in wound healing.
| Modification classification | Enzymes | Target histone | Mechanism | Clinical value | Ref. |
|---|---|---|---|---|---|
| Histone methylation | MLL1 | H3K4me3 | Up-regulate macrophage-mediated inflammation via NF-kB | Promote wound healing | Kimball et al. (2017) |
| Histone methylation | MLL1 | H3K4me3 | Up-regulate TLR4 expression in myeloid cells and control the inflammatory response | Promote wound healing | Davis et al. (2019) |
| Histone methylation | MLL1 | H3K4me3 | Up-regulated TLR4 expression in macrophage and increase proinflammatory cytokines expression of macrophage | Impair diabetic wound healing | Davis et al. (2020a) |
| Histone methylation | Setdb2 | H3K9me3 | Inhibit the production of NF-κB-mediated inflammatory cytokines and XO-mediated UA in macrophages | Regulate normal transition of macrophage phenotype and improve wound healing | Kimball et al. (2019) |
| Histone demethylation | N/A | H3K9me2 and H3K27me3 | Reverse diabetes-induced histone methylation of the ER β promoter and suppression of NRF1 and SOD2 | Epigenetic modification of HSC could be used to promote wound healing. | Xie et al. (2021) |
| Histone demethylation | Jmjd3 | H3K27me3 | Shape programmed macrophages toward a proinflammatory phenotype | Impair wound healing | Gallagher et al. (2015) |
| Histone demethylation | Jmjd3 | H3K27me3 | Up-regulate NFκB-mediated inflammatory genes in macrophage | Shape macrophage toward proinflammatory state and impair diabetic wound healing | Davis et al. (2020b) |
| Histone methylation | PcGs | H3K27me3 | Silence repair genes including Myc and Egfr | Inhibit wound re-epithelialization | Shaw and Martin, (2009) |
| Histone demethylation | JMJD3 | H3K27me3 | Enhance keratinocyte migration by increasing Notch 1 gene expression | Accelerate wound healing. | Na et al. (2017) |
| Histone methylation | SETD2 | H3K36me3 | Inhibit keratinocyte proliferation and migration via down-regulate AKT/mTOR signalling | Impair wound healing | Li et al. (2021a) |
| Histones acetylation | N/A | H3K9ac | Accelerate epithelial migration and active terminal differentiation of KC stem cells | PBMT could accelerate wound healing by up-regulating histones acetylation | Martins et al. (2021) |
| Histone acetylation | MOF | H4K16ac | Promote NF-κB-mediated inflammatory gene transcription in diabetic wound macrophages | MOF-knockout might accelerate diabetic wound healing | den Dekker et al. (2020) |
| Histone deacetylation | HDACs | N/A | Increase proinflammatory Ly6Chigh monocytes | HDAC inhibitor could increase repairing Ly6Clow subsets and enhance wound healing | Cabanel et al. (2019) |
| Histone deacetylation | HDAC6 | N/A | HDAC6 inhibitor-TSA hydrogel inhibited IL-1β secretion of macrophages and up-regulated IL-10 level | TSA could accelerate wound healing | Karnam et al. (2020) |