水凝胶中含有来自沃顿果冻间充质干细胞的外泌体,可促进小鼠伤口愈合。

Q2 Medicine
Cui Bocheng Xu, Zhengbao Xu, Chengyang Yu, Zufu Jiang
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引用次数: 0

摘要

目的探讨水凝胶负载沃顿果冻间充质干细胞(WJMSC)外泌体对伤口愈合的影响:方法:从WJMSC中提取外泌体,用透射电子显微镜和纳米粒度分析仪分别分析WJMSC衍生外泌体(WEX)的形态和大小。WEX的表面标记物CD9、CD81和Calnexin通过Western印迹法检测。制备了外泌体负载藻酸盐水凝胶(WEX-gel),用扫描电子显微镜研究了其形态,并用流变仪检测了其流变行为。用 BCA 法研究了 WEX 凝胶的体外药物释放性能。分别用海藻酸水凝胶、WEX 和 WEX-gel 处理 RAW264.7 细胞,用流式细胞仪检测巨噬细胞中 CD86 和 CD206 的表达。建立小鼠全厚皮肤创面模型,将模型小鼠随机分为空白对照组、WEX对照组和WEX-凝胶组,分别在小鼠创面涂抹PBS、WEX和WEX-凝胶。第 3 天,切除小鼠皮肤组织,用平板计数法评估 WEX 水凝胶的抗菌效果。第 15 天,小鼠安乐死,计算残留伤口的百分比。苏木精、伊红(HE)和 Masson 染色后观察皮肤伤口的组织学变化。免疫组化法检测皮肤伤口组织中 CD86、CD206、CD31 和血管内皮生长因子(VEGF)的表达:结果:成功地从 WJMSC 中提取了外泌体。WEX-凝胶具有规则的三维网络结构、良好的流变性和药物控释性能。WEX 凝胶能促进体外 RAW264.7 细胞从 M1 表型极化到 M2 表型。空白对照组、WEX对照组和WEX-凝胶组的残余创面率分别为(27.5±3.4)%、(15.3±1.2)%和(7.6±1.1)%(PPPPC结论:WEX-凝胶能显著促进RAW264.7细胞从M1表型极化到M2表型:WEX-凝胶可通过调节巨噬细胞的极化显著促进小鼠伤口愈合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrogel loaded with exosomes from Wharton's Jelly-derived mesenchymal stem cells enhances wound healing in mice.

Objectives: To explore the effect of hydrogel loaded with exosomes from Wharton's Jelly-derived mesenchymal stem cell (WJMSC) on wound healing.

Methods: Exosomes were extracted from WJMSC, and the morphology and size of WJMSC-derived exosomes (WEX) were analyzed by transmission electron microscopy and nanoparticle size analyzer, respectively. The surface markers CD9, CD81, and Calnexin of WEX were detected by Western blotting. Exosome-loaded alginate hydrogel (WEX-gel) was prepared; its morphology was studied by scanning electron microscope, and its rheological behavior was examined by a rheometer. The in vitro drug release performance of WEX-gel was investigated by BCA method. RAW264.7 cells were treated with alginate hydrogel, WEX and WEX-gel, respectively; and the expression of CD86 and CD206 in macrophages was detected by flow cytometry. A full-thickness skin wound model was established in mice; the model mice were randomly divided into blank control group, WEX control group and WEX-gel group, and PBS, WEX and WEX-gel were applied to the wound area of mice, respectively. On day 3, the skin tissue of mice was excised, and the antibacterial effect of WEX hydrogel was evaluated by plate counting. On day 15, the mice were euthanized and the percentage of residual wounds was calculated. The histological changes of the skin wound were observed after hematoxylin and eosin (HE) and Masson stainings. The expression of CD86, CD206, CD31 and vascular endothelial growth factor (VEGF) in the skin wound tissue was detected by immunohistochemistry.

Results: Exosomes were successfully extracted from WJMSC. WEX-gel presented a regular three-dimensional network structure, good rheology and controlled drug release performance. WEX-gel promoted the polarization of RAW264.7 cells from the M1 phenotype to M2 phenotype in vitro. The residual wound percentage in blank control group, WEX control group and WEX-gel group were (27.5±3.4)%, (15.3±1.2)% and (7.6±1.1)%, respectively (P<0.05). The antibacterial property of WEX-gel is better than that of WEX (P<0.05). The dermis thickness, the number of new hair follicles, and the rate of collagen deposition in the WEX-gel group were significantly higher than those in the other two groups (all P<0.05). The expression of CD206, CD31 and VEGF in skin wound tissue was higher and the expression of CD86 was lower in WEX-gel group than those in other two groups (all P<0.05).

Conclusions: WEX-gel can significantly promote wound healing in mice by regulating the polarization of macrophages.

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CiteScore
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