The Key Laboratory of Bioactive Materials, Ministry of Education, College of Life Science, Nankai University, Tianjin 300071, China.
The Key Laboratory of Bioactive Materials, Ministry of Education, College of Life Science, Nankai University, Tianjin 300071, China; State Key Laboratory of Medicinal Chemical Biology, Nankai University, Tianjin 300350, China.
Acta Biomater. 2019 Sep 1;95:382-394. doi: 10.1016/j.actbio.2019.01.030. Epub 2019 Jan 17.
The differentiation of human mesenchymal stem cells (hMSCs) into hepatocyte-like cells in vitroprovides a promising candidate for cell therapy of liver diseases, and cell aggregates have been proposed to improve the efficiency of expansion and differentiation. Previously, we engineered multicellular aggregates incorporating human E-cadherin fusion protein (hE-cad-Fc)-coated poly(lactic-co-glycolic acid) (PLGA) microparticles (hE-cad-PLGAs), and a significant improvement was obtained in both cellular proliferation of and cytokine secretion by hMSCs. In this study, hepatic differentiation of hMSCs was induced by a biomimetic microenvironment consisting of these engineered aggregates and a cocktail of specific cytokines. The ratio of hE-cad-PLGAs to hMSCs in engineered hMSCs aggregates was optimized to 1:3 for hepatic differentiation. The expressions of hepatic-specific markers were significantly promoted, and cell polarity and activated drug metabolism enzymes were established in MSC/hE-cad-PLGA aggregates compared with MSC and MSC/PLGA aggregates. Moreover, the expressions of stemness and definitive endoderm markers confirmed effectively induced endoderm differentiation in MSC/hE-cad-PLGA aggregates, which was consistent with the pattern of embryonic development. After pre-differentiation for 1 week, the MSC/hE-cad-PLGA aggregates continuously progressed the hepatic phenotype expression in healthy rat peritoneum. Therefore, the biomimetic microenvironment constructed by hE-cad-PLGAs in engineered multicellular aggregates was able to promote the process of endoderm differentiation and the subsequent hepatic differentiation of hMSCs. It would be appropriate for applied research in hepatotoxic drug screening and cell-based treatment of liver diseases. By optimizing with other cytokine cocktail, the engineered multicellular aggregates can be applied to the construction of other endoderm-derived organs. STATEMENT OF SIGNIFICANCE: The differentiation of mesenchymal stem cells (MSCs) into hepatocyte-like cells in vitroprovides a promising for cell therapy for liver diseases, and cell aggregates have been proposed to improve the expansion and differentiation efficiency. Here, engineered multicellular aggregates were constructed by E-cadherin modified microparticles (hE-cad-PLGAs) construct a biomimetic microenvironment to promote the process of endoderm differentiation and the subsequent hepatic differentiation of hMSCs. Furthermore, after pre-differentiation for 1 week, the MSC/hE-cad-PLGA aggregates continuously progressed the hepatic phenotype expression in healthy rat peritoneum. Therefore, engineered multicellular aggregates with hE-cad-PLGAs would be appropriate for applied research in hepatotoxic drug screening and cell-based treatment of liver diseases, and provide a promising method in the construction of other endoderm-derived organs.
人骨髓间充质干细胞(hMSCs)向肝细胞样细胞的体外分化为肝脏疾病的细胞治疗提供了有前景的候选物,细胞聚集体已被提议用于提高扩增和分化的效率。先前,我们构建了包含人 E-钙黏蛋白融合蛋白(hE-cad-Fc)涂层的聚乳酸-共-羟基乙酸(PLGA)微球(hE-cad-PLGAs)的多细胞聚集体,hMSCs 的细胞增殖和细胞因子分泌都得到了显著改善。在这项研究中,通过由这些工程化聚集体和特定细胞因子鸡尾酒组成的仿生微环境诱导 hMSCs 的肝分化。工程化 hMSCs 聚集体中 hE-cad-PLGA 与 hMSCs 的比例优化为 1:3 以促进肝分化。与 MSC 和 MSC/PLGA 聚集体相比,MSC/hE-cad-PLGA 聚集体中肝特异性标志物的表达显著增强,细胞极性和激活的药物代谢酶建立。此外,干细胞和确定的内胚层标志物的表达证实有效地诱导了 MSC/hE-cad-PLGA 聚集体中的内胚层分化,这与胚胎发育的模式一致。经过 1 周的预分化后,MSC/hE-cad-PLGA 聚集体在健康大鼠腹膜中持续推进肝表型表达。因此,在工程化多细胞聚集体中 hE-cad-PLGA 构建的仿生微环境能够促进 hMSCs 的内胚层分化和随后的肝分化过程。它适用于肝脏疾病的细胞毒性药物筛选和基于细胞的治疗的应用研究。通过与其他细胞因子鸡尾酒进行优化,工程化多细胞聚集体可应用于其他内胚层衍生器官的构建。
骨髓间充质干细胞(MSCs)向肝细胞样细胞的体外分化为肝脏疾病的细胞治疗提供了有前景的候选物,细胞聚集体已被提议用于提高扩增和分化效率。在这里,通过 E-钙黏蛋白修饰的微球(hE-cad-PLGAs)构建工程化多细胞聚集体,构建仿生微环境,促进 hMSCs 的内胚层分化和随后的肝分化过程。此外,经过 1 周的预分化后,MSC/hE-cad-PLGA 聚集体在健康大鼠腹膜中持续推进肝表型表达。因此,具有 hE-cad-PLGA 的工程化多细胞聚集体适用于细胞毒性药物筛选和肝脏疾病的基于细胞的治疗的应用研究,并为其他内胚层衍生器官的构建提供了有前景的方法。
