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Highly Bioactive MXene-M2-Exosome Nanocomposites Promote Angiogenic Diabetic Wound Repair through Reconstructing High Glucose-Derived Immune Inhibition

巨噬细胞极化 血管生成 伤口愈合 免疫系统 炎症 癌症研究 PI3K/AKT/mTOR通路 细胞生物学 微泡 M2巨噬细胞 化学 巨噬细胞 免疫学 医学 信号转导 生物 体外 生物化学 小RNA 基因
作者
Xiaoqi Jiang,Junping Ma,Kaikai Xue,Jinghao Chen,Yu Zhang,Guojian Zhang,Kangyan Wang,Zhe Yao,Qing Hu,Cai Lin,Bo Lei,Cong Mao
出处
期刊:ACS Nano [American Chemical Society]
卷期号:18 (5): 4269-4286 被引量:77
标识
DOI:10.1021/acsnano.3c09721
摘要

The repair of diabetic wounds remains challenging, primarily due to the high-glucose-derived immune inhibition which often leads to the excessive inflammatory response, impaired angiogenesis, and heightened susceptibility to infection. However, the means to reduce the immunosuppression and regulate the conversion of M2 phenotype macrophages under a high-glucose microenvironment using advanced biomaterials for diabetic wounds are not yet fully understood. Herein, we report two-dimensional carbide (MXene)-M2 macrophage exosome (Exo) nanohybrids (FM-Exo) for promoting diabetic wound repair by overcoming the high-glucose-derived immune inhibition. FM-Exo showed the sustained release of M2 macrophage-derived exosomes (M2-Exo) up to 7 days and exhibited broad-spectrum antibacterial activity. In the high-glucose microenvironment, relative to the single Exo, FM-Exo could significantly induce the optimized M2a/M2c polarization ratio of macrophages by activating the PI3K/Akt signaling pathway, promoting the proliferation, migration of fibroblasts, and angiogenic ability of endothelial cells. In the diabetic full-thickness wound model, FM-Exo effectively regulated the polarization status of macrophages and promoted their transition to the M2 phenotype, thereby inhibiting inflammation, promoting angiogenesis through VEGF secretion, and improving proper collagen deposition. As a result, the healing process was accelerated, leading to a better healing outcome with reduced scarring. Therefore, this study introduced a promising approach to address diabetic wounds by developing bioactive nanomaterials to regulate immune inhibition in a high-glucose environment.
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