Enhancement of Wound Healing and Angiogenesis Using Mouse Embryo Fibroblasts Loaded in Decellularized Skin Scaffold.

Q2 Biochemistry, Genetics and Molecular Biology
Armaghan Gheytasvand, Hamed Bagheri, Shahram Pourbeyranvand, Mojdeh Salehnia
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Abstract

Background: Synthetic and natural polymer scaffolds can be used to design wound dressing for repairing the damaged skin tissue. This study investigated acute wound healing process using a decellularized skin scaffold and mouse embryo fibroblast (MEF).

Methods: Mouse skin fragments were decellularized and evaluated by DNA content, toxicity, H&E staining, Raman confocal microscopy, Masson’s trichrome staining, SEM, and biodegradation assays. The fragments were recellularized by the MEFs, and cell attachment and penetration were studied. De- and decellularized scaffolds were used wound dressings in mouse acute wound models as two experimental groups. Using morphological and immunohistochemical assessments, wound healing was evaluated and compared among the experimental and control groups.

Results: DNA content of the decellularized tissue significantly reduced compared to the native control group (7% vs. 100%; p < 0.05). extracellular matrix components, e.g. collagen types I, III, and IV, elastin, and glycosaminoglycan, were well preserved in the decellularized group. The porosity and fiber arrangement in the stroma had a structure similar to normal skin tissue. A significant reduction in healing time was observed in the group treated with a decellularized scaffold. A thicker epidermis layer was observed in the recovered tissue in both experimental groups compared to the control group. Immunostaining showed a positive reaction for CD31 as an endothelial marker in both experimental groups, confirming new vascularization in these groups.

Conclusion: Using MEFs with decellularized skin as a wound dressing increases the rate of wound healing and also the formation of new capillaries. This system could be beneficial for clinical applications in the field of tissue engineering.

利用负载在脱细胞皮肤支架中的小鼠胚胎成纤维细胞促进伤口愈合和血管生成
背景:合成和天然聚合物支架可用于设计修复受损皮肤组织的伤口敷料。本研究使用脱细胞皮肤支架和 MEF 研究了急性伤口愈合过程:对小鼠皮肤碎片进行脱细胞处理,并通过 DNA 含量、毒性、H&E 染色、拉曼共聚焦显微镜、Masson's 三色染色、扫描电镜和生物降解检测进行评估。MEFs 对这些片段进行了再细胞化,并研究了细胞附着和穿透情况。去细胞化和脱细胞化支架作为两个实验组被用于小鼠急性伤口模型的伤口敷料。通过形态学和免疫组化评估,对实验组和对照组的伤口愈合情况进行了评估和比较:结果:与原生对照组相比,脱细胞组织的 DNA 含量明显降低(7% 对 100%;P < 0.05)。脱细胞组中的 ECM 成分,如 I、III 和 IV 型胶原蛋白、弹性蛋白和糖胺聚糖保存完好。基质中的孔隙率和纤维排列结构与正常皮肤组织相似。脱细胞支架组的愈合时间明显缩短。与对照组相比,两个实验组恢复后的组织表皮层更厚。免疫染色显示,两个实验组的内皮标志物 CD31 均呈阳性反应,这证实了这些实验组有新的血管形成:结论:使用脱细胞皮肤的 MEFs 作为伤口敷料可提高伤口愈合率和新毛细血管的形成。该系统可用于组织工程领域的临床应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Iranian Biomedical Journal
Iranian Biomedical Journal Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)
CiteScore
3.20
自引率
0.00%
发文量
42
审稿时长
8 weeks
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