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Robust pluripotent stem cell expansion and cardiomyocyte differentiationviageometric patterning

诱导多能干细胞 同源盒蛋白纳米 实验室烧瓶 细胞生物学 生物 细胞分化 干细胞 胚胎干细胞 细胞 细胞培养 重复性 化学 遗传学 色谱法 物理化学 基因
作者
Frank B. Myers,Jason S. Silver,Yan Zhuge,Ramin E. Beygui,Christopher K. Zarins,Luke P. Lee,Oscar J. Abilez
出处
期刊:Integrative Biology [Oxford University Press]
卷期号:5 (12): 1495-1506 被引量:28
标识
DOI:10.1039/c2ib20191g
摘要

Geometric factors including the size, shape, density, and spacing of pluripotent stem cell colonies play a significant role in the maintenance of pluripotency and in cell fate determination. These factors are impossible to control using standard tissue culture methods. As such, there can be substantial batch-to-batch variability in cell line maintenance and differentiation yield. Here, we demonstrate a simple, robust technique for pluripotent stem cell expansion and cardiomyocyte differentiation by patterning cell colonies with a silicone stencil. We have observed that patterning human induced pluripotent stem cell (hiPSC) colonies improves the uniformity and repeatability of their size, density, and shape. Uniformity of colony geometry leads to improved homogeneity in the expression of pluripotency markers SSEA4 and Nanog as compared with conventional clump passaging. Patterned cell colonies are capable of undergoing directed differentiation into spontaneously beating cardiomyocyte clusters with improved yield and repeatability over unpatterned cultures seeded either as cell clumps or uniform single cell suspensions. Circular patterns result in a highly repeatable 3D ring-shaped band of cardiomyocytes which electrically couple and lead to propagating contraction waves around the ring. Because of these advantages, geometrically patterning stem cells using stencils may offer greater repeatability from batch-to-batch and person-to-person, an increase in differentiation yield, a faster experimental workflow, and a simpler protocol to communicate and follow. Furthermore, the ability to control where cardiomyocytes arise across a culture well during differentiation could greatly aid the design of electrophysiological assays for drug-screening.
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