Objectives: There has been increasing interest in mesenchymal stem cells (MSCs) because of their potential use for regenerative therapy; however, there is no well-defined protocol for MSCs culture. This study compares techniques of conventional plate and microcarrier culturing of MSCs. Methods and results: Here, different conditions for isolation and expansion of rat MSCs have been examined and it was found that plating density and plating time in primary culture played important roles for culture of these rat MSCs. When plated at 10 8/cm 2 density for 72 h, in primary culture, recycling stem cells (RS cells) predominated, and characteristics of rat MSCs (including morphology, growth rate, phenotype and differentiation potentials) remained stable during expansion until passage 14. For subculture of the cells, it was found that their growth rate when incubated at 33 °C was higher than those incubated at 37 °C, and maximal increase was 10- and 6-fold respectively. When cultured using microcarriers, at a density of 1 × 10 5/mg beads, growth kinetics, phenotype and differentiation potentials also remained constant for cells between passage 2nd and 14th; their maximal number increased 16-fold. Conclusions: Compared to conventional plate culture, culture using gelatine porous microcarrier Cultispher-S was superior for large-scale production of rat MSCs.
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机译:目的:由于间充质干细胞(MSCs)可能用于再生治疗,因此人们对其的兴趣日益增加。但是,尚无用于MSC培养的明确协议。这项研究比较了传统的MSC平板培养和微载体培养技术。方法和结果:在这里,研究了分离和扩增大鼠MSC的不同条件,发现原代培养中的铺板密度和铺板时间对这些大鼠MSC的培养起着重要作用。当以10 8 / cm 2密度接种72 h时,在原代培养中,循环干细胞(RS细胞)占主导地位,大鼠MSC的特性(包括形态,生长速率,表型和分化潜能)在扩增过程中保持稳定,直到第14代。对于细胞的继代培养,发现它们在33℃孵育时的生长速率高于在37℃孵育的细胞的生长速率,最大增加分别为10倍和6倍。当使用微载体培养时,在第2代和第14代之间,细胞密度为1×10 5 / mg珠,其生长动力学,表型和分化潜能也保持不变;它们的最大数量增加了16倍。结论:与常规平板培养相比,使用明胶多孔微载体Cultispher-S进行培养可大规模生产大鼠MSC。
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