Mesenchymal Stem Cell Spheroids Embedded in an Injectable Thermosensitive Hydrogel: An In Situ Drug Formation Platform for Accelerated Wound Healing

间充质干细胞 伤口愈合 生物医学工程 体内 细胞生物学 细胞外基质 血管生成 球体 化学 材料科学 体外 免疫学 癌症研究 医学 生物 生物化学 生物技术
作者
Mohammad Ali Nilforoushzadeh,Mohsen Khodadadi Yazdi,Shaghayegh Baradaran Ghavami,Samila Farokhimanesh,Leila Mohammadi Amirabad,Payam Zarrintaj,Mohammad Reza Saeb,Michael R. Hamblin,Mehrak Zare,Masoud Mozafari
出处
期刊:ACS Biomaterials Science & Engineering [American Chemical Society]
卷期号:6 (9): 5096-5109 被引量:72
标识
DOI:10.1021/acsbiomaterials.0c00988
摘要

The ability of mesenchymal stem cells (MSCs) to enhance cutaneous wound healing has been well established. Extensive expansion of cells to reach sufficient cell numbers for regenerating tissues has always limited cell-based therapies. An ingenious solution to address this challenge is to develop a strategy to increase the immunomodulatory effects of MSCs without expanding them. In this study, we employed a simple characteristic of cells. It was observed that an optimized three-dimensional (3D) MSC culture in spheroid forms significantly improved their paracrine effects. An electrospray (ES) encapsulation apparatus was used to encapsulate individual or 3D spheroid MSCs into microscale alginate beads (microbeads). Furthermore, alginate microbeads were embedded in an injectable thermosensitive hydrogel matrix, which gels at skin temperature. The hydrogel fills and seals the wounds cavities, maintains high humidity at the wound area, absorbs exudate, and fixes microbeads, protecting them from direct contact with the harsh wound environment. In vitro investigations revealed that secretion of interleukin 10 (IL-0) and transforming growth factor β1 (TGF-β1) gene was gradually enhanced, providing a delivery platform for prolonged release of bioactive molecules. In vivo study on full-thickness wounds showed granulation and re-epithelialization, only after 7 days. Moreover, increased expression of α-smooth muscle actin (α-SMA) in the first 14 days after treatment ensured wound contraction. Besides, a gradual decrease in α-SMA secretion resulted in reduced scar formation. Well-organized collagen fibrils and high expression of the angiogenesis biomarker CD31 confirmed the promoting effect of the hydrogel on the wound-healing process. The proposed wound-dressing system would potentially be used in scalable and effective cell-based wound therapies.
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