Kokubun Kelsey, Pankajakshan Divya, Kim Min-Jung, Agrawal Devendra K
Center for Clinical and Translational Science and Department of Biomedical Sciences, Creighton University School of Medicine, Omaha, NE, USA.
J Tissue Eng Regen Med. 2016 Feb;10(2):E73-83. doi: 10.1002/term.1758. Epub 2013 May 21.
Epithelial denudation is one of the characteristics of chronic asthma. To restore its functions, the airway epithelium has to rapidly repair the injuries and regenerate its structure and integrity. Mesenchymal stem cells (MSCs) have the ability to differentiate into many cell lineages. However, the differentiation of MSCs into epithelial cells has not been fully studied. Here, we examined the differentiation of MSCs into epithelial cells using three different media compositions with various growth supplementations. The MSCs were isolated from porcine bone marrow by density gradient centrifugation. The isolated MSCs were CD11(-) CD34(-) CD45(-) CD44(+) CD90(+) and CD105(+) by immunostaining and flow cytometry. MSCs were stimulated with EpiGRO (Millipore), BEpiCM (ScienCell) and AECGM (PromoCell) media for 5 and 10 days, and epithelial differentiation was assessed by qPCR (keratin 14, 18 and EpCAM), fluorometry (cytokeratin 7-8, cytokeratin 14-15-16-19 and EpCAM), western blot analysis (pancytokeratin, EpCAM) and flow cytometry (cytokeratin 7-8, cytokeratin 14-15-16-19 and EpCAM). The functional marker MUC1 was also assessed after 10 days of air-liquid interface (ALI) culture in optimized media. Cells cultured in BEpiCM containing fibroblast growth factor and prostaglandin E2 showed the highest expression of the epithelial markers: CK7-8 (85.90%); CK-14-15-16-19 (10.14%); and EpCAM (64.61%). The cells also expressed functional marker MUC1 after ALI culture. The differentiated MSCs when cultured in BEpiCM medium ex vivo in a bioreactor on a decellularized trachea for 10 days retained the epithelial-like phenotype. In conclusion, porcine bone marrow-derived MSCs demonstrate commitment to the epithelial lineage and might be a potential therapy for facilitating the repair of denuded airway epithelium.
上皮剥脱是慢性哮喘的特征之一。为恢复其功能,气道上皮必须迅速修复损伤并使其结构和完整性再生。间充质干细胞(MSC)具有分化为多种细胞谱系的能力。然而,MSC向上皮细胞的分化尚未得到充分研究。在此,我们使用三种不同的培养基组成并添加各种生长补充剂来检测MSC向上皮细胞的分化。通过密度梯度离心从猪骨髓中分离出MSC。通过免疫染色和流式细胞术,分离出的MSC为CD11(-) CD34(-) CD45(-) CD44(+) CD90(+) 和CD105(+)。用EpiGRO(密理博)、BEpiCM(ScienCell)和AECGM(普洛麦格)培养基刺激MSC 5天和10天,并通过qPCR(角蛋白14、18和EpCAM)、荧光测定法(细胞角蛋白7-8、细胞角蛋白14-15-16-19和EpCAM)、蛋白质印迹分析(全细胞角蛋白、EpCAM)和流式细胞术(细胞角蛋白7-8、细胞角蛋白14-15-16-19和EpCAM)评估上皮分化。在优化培养基中进行气液界面(ALI)培养10天后,还评估了功能标志物MUC1。在含有成纤维细胞生长因子和前列腺素E2的BEpiCM中培养的细胞显示出上皮标志物的最高表达:CK7-8(85.90%);CK-14-15-16-19(10.14%);和EpCAM(64.61%)。在ALI培养后,这些细胞也表达了功能标志物MUC1。当在脱细胞气管上的生物反应器中在体外BEpiCM培养基中培养10天时,分化的MSC保留了上皮样表型。总之,猪骨髓来源的MSC表现出向上皮谱系的定向分化,可能是促进剥脱气道上皮修复的一种潜在治疗方法。
