Growth characteristics of the nonhuman primate embryonic stem cell line cjes001 depending on feeder cell treatment.

Gesine Fleischmann, Thomas Müller, Rainer Blasczyk, Erika Sasaki, Peter A Horn
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引用次数: 16

Abstract

Embryonic stem cells (ESC) hold tremendous potential for therapeutic applications, including regenerative medicine, as well as for understanding basic mechanisms in stem cell biology. Since numerous experiments cannot be conducted in human ESC because of ethical or practical limitations, nonhuman primate ESC serve as invaluable clinically relevant models. The novel marmoset (Callithrix jacchus) ESC line cjes001 was characterized using different stem cell markers. The cells were stained positively with Oct4, SSEA-3, SSEA-4, Tra-1-60, Tra-1-81, and Sox-2 underscoring their status as undifferentiated ESC. ESC are typically grown on mouse embryonic fibroblasts (MEF) as feeder cells whose proliferation is arrested either by treatment with Mitomycin C or by gamma-irradiation. To assess the impact of these treatments on the ability of MEF to support the growth of undifferentiated ESC, we used an MTT assay to evaluate the cellular metabolic activity of growth arrested feeder cells. There was a significant (p < 0.02) difference in gamma-irradiated cells displaying a higher metabolic activity compared to Mitomycin C inactivation. Also we quantified 69 soluble factors in the supernatant of both Mitomycin-treated and gamma-irradiated MEF by bead-based multiplex analysis, and thus established a profile of MEF-secreted factors. The time course of secretion was analyzed by monitoring the supernatant at 0, 6, 12, and 24 h after changing the medium. Comparing gamma-irradiated and Mitomycin-treated MEF suggested higher amounts of some cytokines including FGF or SCF by the former. We also assessed whether the method of inactivation had an effect on growth kinetics and differentiation of primate ESC. There appeared to be a trend to a lower number of differentiated ESC colonies on the gamma-irradiated feeder cells, suggesting that this may be the preferable method of growth arrest.

非人灵长类动物胚胎干细胞系cjes001在饲养细胞处理下的生长特性。
胚胎干细胞(ESC)具有巨大的治疗应用潜力,包括再生医学,以及了解干细胞生物学的基本机制。由于伦理或实际限制,许多实验不能在人类ESC中进行,非人类灵长类ESC可作为宝贵的临床相关模型。利用不同的干细胞标记对新型狨猴ESC系cjes001进行了鉴定。Oct4、SSEA-3、SSEA-4、Tra-1-60、Tra-1-81和Sox-2染色阳性,提示细胞处于未分化的ESC状态。ESC通常生长在小鼠胚胎成纤维细胞(MEF)上,作为饲养细胞,其增殖可以通过丝裂霉素C或γ辐射抑制。为了评估这些处理对MEF支持未分化ESC生长能力的影响,我们使用MTT试验来评估生长受阻的饲养细胞的细胞代谢活性。与丝裂霉素C失活细胞相比,γ辐照细胞显示出更高的代谢活性,差异有统计学意义(p < 0.02)。此外,我们还对丝分裂霉素处理和γ辐照的MEF上清液中的69个可溶性因子进行了定量分析,从而建立了MEF分泌因子的谱图。改变培养基后0、6、12、24 h监测上清液,分析分泌时间。比较伽玛辐照的MEF和丝裂霉素处理的MEF,前者含有更多的细胞因子,包括FGF或SCF。我们还评估了失活方法是否对灵长类ESC的生长动力学和分化有影响。在γ辐照的饲养细胞上,分化的ESC菌落数量似乎有减少的趋势,这表明这可能是抑制生长的较好方法。
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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