Controlling the Effective Oxygen Tension Experienced by Cells Using a Dynamic Culture Technique for Hematopoietic Ex Vivo Expansion
Abhilasha Tiwari, Cynthia S. Wong, Lakshmi P. Nekkanti, James A. Deane, Courtney McDonald, Jingang Li, Yen Pham, Amy E. Sutherland, Graham Jenkin, Mark A. Kirkland
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Abstract
Clinical hematopoietic stem/progenitor cell (HSPC) transplantation outcomes are strongly correlated with the number of cells infused. Hence, to generate sufficient HSPCs for transplantation, the best culture parameters for expansion are critical. It is generally assumed that the defined oxygen (O2 ) set for the incubator reflects the pericellular O2 to which cells are being exposed. Studies have shown that low O2 tension maintains an undifferentiated state, but the expansion rate may be constrained because of limited diffusion in a static culture system. A combination of low ambient O2 and dynamic culture conditions has been developed to increase the reconstituting capacity of human HSPCs. In this unit, the protocols for serum-free expansion of HSPCs at 5% and 20% O2 in static and dynamic nutrient flow mode are described. Finally, the impact of O2 tension on HSPC expansion in vitro by flow cytometry and colony forming assays and in vivo through engraftment using a murine model is assessed. © 2018 by John Wiley & Sons, Inc.
利用动态培养技术控制造血体外扩增细胞的有效氧张力
临床造血干细胞/祖细胞(HSPC)移植的结果与输注的细胞数量密切相关。因此,为了产生足够的HSPCs用于移植,最佳的培养参数至关重要。一般认为,为培养箱设定的限定氧(O2)反映了细胞所暴露的细胞周氧。研究表明,低氧张力维持未分化状态,但在静态培养系统中,由于扩散有限,膨胀速率可能受到限制。低氧环境和动态培养条件的结合已被开发出来,以增加人造血干细胞的重建能力。在本单元中,描述了在静态和动态营养流动模式下,在5%和20% O2下无血清扩增HSPCs的方案。最后,通过流式细胞术和集落形成实验评估O2张力对体外HSPC扩增的影响,并通过小鼠模型植入体内评估O2张力对HSPC扩增的影响。©2018 by John Wiley &儿子,Inc。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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