(+)4-cholesten-3-one/sodium alginate/gelatin hydrogel for full-thickness wound repair and skin regeneration.

Yu Yan, Aijia You, Xianxian Chen, Wenyi Huang, Xiaoting Lu, Cuijin Gu, Sen Ye, Jun Zhong, Haiting Huang, Yao Zhao, Yu Li, Chun Li
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Abstract

(+)4-cholesten-3-one has been proved to have potential wound healing effect in the process of wound regeneration. This study aimed to evaluate the effect of (+)4-cholesten-3-one/sodium alginate/gelatin on skin injury and reveal its potential molecular mechanism. First, we prepared sodium alginate/gelatin hydrogel (SA/Gel hydrogel) with different ratios and tested their characteristics. Based on these results, different concentrations of (+)4-cholesten-3-one were added into SA/Gel hydrogel. A full-thickness skin injury model was successfully established to evaluate wound healing activityin vivo. HE staining and Masson staining were used to evaluate the thickness of granulation tissue and collagen deposition level. Immunohistochemical staining and immunofluorescence staining were applied to detect the level of revascularization and proliferation in each group of wounds. Western blot, quantitative-PCR and immunofluorescence staining were used to detect the expression of proteins related to Wnt/β-catenin signaling pathway in each group of wounds.In vitroresults showed that the hydrogel not only created a 3D structure for cell adhesion and growth, but also exhibited good swelling ability, excellent degradability and favorable bio-compatibility. Most importantly,in vivoexperiments further indicated that (+)4-cholesten-3-one/SA/Gel hydrogel effectively enhanced wound healing. The effectiveness is due to its superior abilities in accelerating healing process, granulation tissue regeneration, collagen deposition, promoting angiogenesis, tissue proliferation, as well as fibroblast activation and differentiation. The underlying mechanism was related to the Wnt/β-catenin signaling pathway. This study highlighted that (+)4-cholesten-3-one/SA/Gel hydrogel holds promise as a wound healing dressing in future clinical applications.

(+)4-胆甾烯-3-酮/海藻酸钠/明胶水凝胶用于全厚伤口修复和皮肤再生。
事实证明,(+)4-胆甾烯-3-酮在伤口再生过程中具有潜在的伤口愈合作用。本研究旨在评估(+)4-胆甾烯-3-酮/海藻酸钠/明胶对皮肤损伤的影响,并揭示其潜在的分子机制。首先,我们制备了不同比例的海藻酸钠/明胶水凝胶(SA/Gel hydrogel),并测试了它们的特性。在此基础上,在 SA/Gel 水凝胶中加入不同浓度的(+)4-胆甾烯-3-酮。成功建立了全厚皮肤损伤模型,以评估体内伤口愈合活性。HE 染色和 Masson 染色用于评估肉芽组织的厚度和胶原沉积水平。免疫组化染色和免疫荧光染色用于检测各组伤口的血管再通和增殖水平。体外实验结果表明,水凝胶不仅能形成有利于细胞粘附和生长的三维结构,还具有良好的溶胀能力、优异的可降解性和良好的生物相容性。最重要的是,体内实验进一步表明,(+)4-胆甾烯-3-酮/SA/凝胶水凝胶能有效促进伤口愈合。这种效果得益于它在加速伤口愈合、肉芽组织再生、胶原沉积、促进血管生成、组织增殖以及成纤维细胞活化和分化方面的卓越能力。其潜在机制与 Wnt/β-catenin 信号通路有关。这项研究强调了(+)4-胆甾烯-3-酮/SA/凝胶水凝胶作为伤口愈合敷料在未来临床应用中的前景。
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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