基质血管成分在皮肤伤口愈合过程中通过调节细胞外基质促进成纤维细胞迁移和血管生成。

IF 2.3 1区 数学 Q1 MATHEMATICS Duke Mathematical Journal Pub Date : 2019-10-17 DOI:10.1186/s13287-019-1415-6
Hongsen Bi, Hui Li, Chen Zhang, Yiqing Mao, Fangfei Nie, Ying Xing, Wuga Sha, Xi Wang, David M Irwin, Huanran Tan
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引用次数: 0

摘要

背景:难愈性伤口是糖尿病的典型并发症,也是手术后的常见结果。目前的方法难以改善伤口愈合。最近,从成熟脂肪中提取的非扩张基质血管成分(SVF)为治疗难治性伤口愈合开辟了新方向。本研究的目的是系统研究 SVF 对伤口愈合的影响,包括伤口愈合的速度和特点、成纤维细胞迁移能力和血运重建,并特别强调其精确的分子机制:方法:通过消化、过滤和离心分离 SVF,然后通过免疫细胞化学、MTS 增殖试验和多线性潜能分析进行验证。通过在链脲佐钦诱导的高血糖小鼠背上创建直径为 6 毫米的伤口(包括全皮肤缺损)来制作伤口模型。皮下注射SVF或人类脂肪来源干细胞(hADSC)悬浮液,并通过拍照和测量对伤口进行为期9天的鉴定。用划痕试验确定成纤维细胞与 hADSCs 共同培养后的迁移能力是否发生变化。通过高通量 RNAseq 对成纤维细胞、内皮细胞和皮肤组织的 mRNA 进行测序,并对 SVF 或 hADSCs 可能调控的差异表达基因和通路进行生物信息学分析:结果:我们的数据显示,hADSCs具有间充质干细胞的多种特征。SVF和hADSCs能明显改善高血糖小鼠的伤口愈合;hADSCs能改善成纤维细胞的迁移能力和HUVECs毛细血管结构的形成。SVF通过关注血管生成和基质重塑促进伤口愈合:结论:SVF 和 hADSCs 都能改善成纤维细胞和内皮细胞的功能,调节基因表达,促进皮肤愈合。结论:SVF 和 hADSCs 都能改善成纤维细胞和内皮细胞的功能,调节基因表达,促进皮肤愈合。其中可能涉及多种机制,包括成纤维细胞的迁移、通过调节细胞粘附促进内皮细胞的小管生成以及细胞因子途径。
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Stromal vascular fraction promotes migration of fibroblasts and angiogenesis through regulation of extracellular matrix in the skin wound healing process.

Background: A refractory wound is a typical complication of diabetes and is a common outcome after surgery. Current approaches have difficulty in improving wound healing. Recently, non-expanded stromal vascular fraction (SVF), which is derived from mature fat, has opened up new directions for the treatment of refractory wound healing. The aim of the current study is to systematically investigate the impact of SVF on wound healing, including the rate and characteristics of wound healing, ability of fibroblasts to migrate, and blood transport reconstruction, with a special emphasis on their precise molecular mechanisms.

Methods: SVF was isolated by digestion, followed by filtration and centrifugation, and then validated by immunocytochemistry, a MTS proliferation assay and multilineage potential analysis. A wound model was generated by creating 6-mm-diameter wounds, which include a full skin defect, on the backs of streptozocin-induced hyperglycemic mice. SVF or human adipose-derived stem cell (hADSC) suspensions were subcutaneously injected, and the wounds were characterized over a 9-day period by photography and measurements. A scratch test was used to determine whether changes in the migratory ability of fibroblasts occurred after co-culture with hADSCs. Angiogenesis was observed with human umbilical vein endothelial cells. mRNA from fibroblasts, endotheliocyte, and skin tissue were sequenced by high-throughput RNAseq, and differentially expressed genes, and pathways, potentially regulated by SVF or hADSCs were bioinformatically analyzed.

Results: Our data show that hADSCs have multiple characteristics of MSC. SVF and hADSCs significantly improved wound healing in hyperglycemic mice. hADSCs improve the migratory ability of fibroblasts and capillary structure formation in HUVECs. SVF promotes wound healing by focusing on angiogenesis and matrix remodeling.

Conclusions: Both SVF and hADSCs improve the function of fibroblast and endothelial cells, regulate gene expression, and promote skin healing. Various mechanisms likely are involved, including migration of fibroblasts, tubulogenesis of endothelial cells through regulation of cell adhesion, and cytokine pathways.

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