BACKGROUND Shifting from the inflammatory to the proliferative phase represents a pivotal step during managing diabetic foot ulcers(DFUs);however,existing medical interventions remain insufficient.MicroRNAs(miRs)highl...BACKGROUND Shifting from the inflammatory to the proliferative phase represents a pivotal step during managing diabetic foot ulcers(DFUs);however,existing medical interventions remain insufficient.MicroRNAs(miRs)highlight notable capacity for accelerating the repair process of DFUs.Previous research has demonstrated which miR-122-5p regulates matrix metalloproteinases under diabetic conditions,thereby influencing extracellular matrix dynamics.AIM To investigate the impact of miR-122-5p on the transition from the inflammatory to the proliferative stage in DFU.METHODS Analysis for miR-122-5p expression in skin tissues from diabetic ulcer patients and mice was analyzed using quantitative real-time polymerase chain reaction(qRT-PCR).A diabetic wound healing model induced by streptozotocin was used,with mice receiving intradermal injections of adeno-associated virus-DJ encoding empty vector or miR-122.Skin tissues were retrieved at 3,7,and 14 days after injury for gene expression analysis,histology,immunohistochemistry,and network studies.The study explored miR-122-5p’s role in macrophage-fibroblast interactions and its effect on transitioning from inflammation to proliferation in DFU healing.RESULTS High-throughput sequencing revealed miR-122-5p as crucial for DFU healing.qRT-PCR showed significant upregulation of miR-122-5p within diabetic skin among DFU individuals and mice.Western blot,along with immunohistochemical and enzyme-linked immunosorbent assay,demonstrating the upregulation of inflammatory mediators(hypoxia inducible factor-1α,matrix metalloproteinase 9,tumor necrosis factor-α)and reduced fibrosis markers(fibronectin 1,α-smooth muscle actin)by targeting vascular endothelial growth factor.Fluorescence in situ hybridization indicated its expression localized to epidermal keratinocytes and fibroblasts in diabetic mice.Immunofluorescence revealed enhanced increased presence of M1 macrophages and reduced M2 polarization,highlighting its role in inflammation.MiR-122-5p elevated inflammatory cytokine levels while suppressing fibrotic activity from fibroblasts exposed to macrophage-derived media,highlighting its pivotal role in regulating DFU healing.CONCLUSION MiR-122-5p impedes cutaneous healing of diabetic mice via enhancing inflammation and inhibiting fibrosis,offering insights into miR roles in human skin wound repair.展开更多
基金Supported by the National Natural Science Foundation of China,No.82274528.
文摘BACKGROUND Shifting from the inflammatory to the proliferative phase represents a pivotal step during managing diabetic foot ulcers(DFUs);however,existing medical interventions remain insufficient.MicroRNAs(miRs)highlight notable capacity for accelerating the repair process of DFUs.Previous research has demonstrated which miR-122-5p regulates matrix metalloproteinases under diabetic conditions,thereby influencing extracellular matrix dynamics.AIM To investigate the impact of miR-122-5p on the transition from the inflammatory to the proliferative stage in DFU.METHODS Analysis for miR-122-5p expression in skin tissues from diabetic ulcer patients and mice was analyzed using quantitative real-time polymerase chain reaction(qRT-PCR).A diabetic wound healing model induced by streptozotocin was used,with mice receiving intradermal injections of adeno-associated virus-DJ encoding empty vector or miR-122.Skin tissues were retrieved at 3,7,and 14 days after injury for gene expression analysis,histology,immunohistochemistry,and network studies.The study explored miR-122-5p’s role in macrophage-fibroblast interactions and its effect on transitioning from inflammation to proliferation in DFU healing.RESULTS High-throughput sequencing revealed miR-122-5p as crucial for DFU healing.qRT-PCR showed significant upregulation of miR-122-5p within diabetic skin among DFU individuals and mice.Western blot,along with immunohistochemical and enzyme-linked immunosorbent assay,demonstrating the upregulation of inflammatory mediators(hypoxia inducible factor-1α,matrix metalloproteinase 9,tumor necrosis factor-α)and reduced fibrosis markers(fibronectin 1,α-smooth muscle actin)by targeting vascular endothelial growth factor.Fluorescence in situ hybridization indicated its expression localized to epidermal keratinocytes and fibroblasts in diabetic mice.Immunofluorescence revealed enhanced increased presence of M1 macrophages and reduced M2 polarization,highlighting its role in inflammation.MiR-122-5p elevated inflammatory cytokine levels while suppressing fibrotic activity from fibroblasts exposed to macrophage-derived media,highlighting its pivotal role in regulating DFU healing.CONCLUSION MiR-122-5p impedes cutaneous healing of diabetic mice via enhancing inflammation and inhibiting fibrosis,offering insights into miR roles in human skin wound repair.
