Octopus -inspired gelatin-methacrylate scaffolds loaded with hBMSC-derived exosomes promote wound healing by regulating macrophage polarization

Q1 Engineering Smart Materials in Medicine Pub Date : 2023-07-28 DOI:10.1016/j.smaim.2023.07.002
Dong Yan , Guoqi Cao , Shumei Mao , Zehan Shang , Chengde Li , Guangdong Zhou , Xinping Li , Huitang Xia , Yibing Wang
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引用次数: 2

Abstract

Excessive local movement and inflammation are common problems in the process of wound repair, which lead to failure of later repair. In order to solve this problem, inspired by the octopus sucker structure, we successfully developed a photocrosslinked hydrogel that can adsorb skin surface fascia. In addition, extracellular vesicles from human bone marrow mesenchymal stem cells are encapsulated in the octopus like sucker structure. The morphology and structure of extracellular vesicles in bone marrow mesenchymal stem cells were detected by scanning electron microscopy and particle size analysis. Through iTRAQ, we tested the expression of angiogenesis related proteins contained in extracellular vesicles. Design small interfering RNA to verify its impact on angiogenic related genes and proteins. Macrophage polarization was detected by immunofluorescence. The expression of new blood vessels was detected by constructing a skin defect model and injecting microfil contrast agent into the heart. When the sucker is firmly adsorbed on the damaged wound, the sucker will slowly degrade. Using its delivery system, it is observed that the extracellular vesicles are released in the wound. Through iTRAQ, it was found that the angiogenesis regulator (angiopoietin-like 4, angiopoietin-like 3 and aminopeptidase N) released in the extracellular vesicles regulates collagen deposition, angiogenesis, and inhibits macrophage aggregation. In addition, the slowly released extracellular vesicles will further inhibit the polarization of proinflammatory macrophages. This biological behavior can provide an adaptive microenvironment for skin regeneration at an early stage. This new bionic octopus sucker structure gel creates a good microenvironment for wound repair and shortens the wound healing time. Therefore, this hydrogel inspired by the octopus sucker structure may provide a good strategy and commercial value for promoting wound repair treatment in clinical practice.

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章鱼启发明胶-甲基丙烯酸酯支架装载hbmscs衍生的外泌体通过调节巨噬细胞极化促进伤口愈合
局部过度运动和炎症是创面修复过程中常见的问题,导致后期修复失败。为了解决这一问题,受章鱼吸盘结构的启发,我们成功开发了一种可以吸附皮肤表面筋膜的光交联水凝胶。此外,人骨髓间充质干细胞的胞外囊泡被包裹在章鱼状吸盘结构中。采用扫描电镜和粒度分析方法对骨髓间充质干细胞细胞外囊泡的形态和结构进行了观察。通过iTRAQ检测细胞外囊泡中血管生成相关蛋白的表达。设计小干扰RNA,验证其对血管生成相关基因和蛋白的影响。免疫荧光法检测巨噬细胞极化。通过建立皮肤缺损模型并注入微膜造影剂检测新生血管的表达。当吸盘牢固地吸附在受损伤口上时,吸盘就会慢慢降解。利用其输送系统,观察到细胞外囊泡在伤口中被释放。通过iTRAQ发现细胞外囊泡释放的血管生成调节剂(血管生成素样4、血管生成素样3和氨基肽酶N)调节胶原沉积、血管生成,抑制巨噬细胞聚集。此外,缓慢释放的细胞外囊泡会进一步抑制促炎巨噬细胞的极化。这种生物学行为可以为早期皮肤再生提供适应性微环境。这种新型仿生章鱼吸盘结构凝胶为伤口修复创造了良好的微环境,缩短了伤口愈合时间。因此,这种受章鱼吸盘结构启发的水凝胶可能在临床实践中为促进伤口修复治疗提供良好的策略和商业价值。
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来源期刊
Smart Materials in Medicine
Smart Materials in Medicine Engineering-Biomedical Engineering
CiteScore
14.00
自引率
0.00%
发文量
41
审稿时长
48 days
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