A calcitonin gene-related peptide co-crosslinked hydrogel promotes diabetic wound healing by regulating M2 macrophage polarization and angiogenesis

降钙素基因相关肽 血管生成 巨噬细胞极化 伤口愈合 医学 药理学 癌症研究 巨噬细胞 免疫学 内科学 化学 神经肽 受体 生物化学 体外
作者
Xiangyü Li,Min Yi,Ziyan Song,Tao Ni,Liying Tu,Miao Yu,Lantian Zhang,Jingping Shi,Weicheng Gao,Qian Zhang,Wei Yan
出处
期刊:Acta Biomaterialia [Elsevier BV]
卷期号:196: 109-122 被引量:36
标识
DOI:10.1016/j.actbio.2025.02.046
摘要

Delayed diabetic wound (DBW) healing is a severe complication of diabetes, characterized notably by peripheral sensory neuropathy. The underlying mechanism of sensory nerves and DBW remain unclear. Here, we demonstrate the role of calcitonin gene-related peptide (CGRP) in regulating epithelialization and angiogenesis in DBW. Subsequently, we design and synthesis a gelatin methacryloyl (GelMA-CGRP) hydrogel that slowly releases CGRP, and evaluated its effect on promoting DBW healing. The results show that CGRP is abnormally downregulated in DBW, and CGRP ablation further delays DBW healing. This is due to the reduced M2 polarization and decreased angiogenesis in the absence of CGRP, whereas local application of GelMA-CGRP accelerates DBW healing. Mechanistic studies indicate that CGRP promotes M2 macrophage polarization by inhibiting the p53 signaling pathway and enhances endothelial cell function, thereby accelerating DBW healing. These findings suggest that CGRP could provide a novel therapeutic approach for diabetic wound treatment. STATEMENT OF SIGNIFICANCE: Current methods for treating diabetic wounds have many limitations. Compared to conventional dressings, hydrogels combined with drugs or biological factors to promote diabetic wound healing have become an important research direction in recent years. This study reveals the key role of CGRP in the pathogenesis of diabetic wounds. The research found that CGRP promotes M2 macrophage polarization and angiogenesis by inhibiting the p53 signaling pathway, thereby promoting diabetic wound healing. We further utilized the carrier properties of GelMA hydrogel to develop a GelMA-CGRP hydrogel material that slowly delivers CGRP and effectively treats diabetic wounds. This material demonstrates strong biocompatibility and antimicrobial properties, offering a novel approach for the treatment of diabetic wounds.
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