使用Sandoz近交系瑞士小鼠硫鸟嘌呤抗性ouabain抗性细胞系作为饲养层,开发可重复和可扩展的培养条件,用于体外维持猪胚胎干细胞。

Stem cells and development Pub Date : 2023-12-01 Epub Date: 2023-10-23 DOI:10.1089/scd.2023.0171
Yelim Ahn, Jinsol Jeong, Kwang-Hwan Choi, Dong-Kyung Lee, Mingyun Lee, Na-Young Lee, Dae-Yong Kim, Chang-Kyu Lee
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引用次数: 0

摘要

饲养细胞通过分泌各种外源性调节因子,如细胞外基质(ECM)蛋白和生长因子,在维持胚胎干细胞(ESCs)的多能性方面发挥着至关重要的作用。尽管原代小鼠胚胎成纤维细胞(MEFs)是用于培养ESCs的最广泛使用的饲养细胞类型,但它们不可避免地存在缺点,如分批变异和劳动密集型分离过程。在这里,我们揭示了Sandoz近交系瑞士小鼠(SIM)硫鸟嘌呤抗性哇巴因抗性(STO)细胞系,一种由小鼠SIM胚胎成纤维细胞建立的永生细胞系,可以用作体外培养真正猪ESCs的饲养层,而不是原代MEFs。首先,分析编码ECM蛋白和生长因子的基因的表达,以比较它们作为饲养细胞的分泌功能。定量实时PCR显示,与密度相似的原代MEF相比,这些多能性相关因子的基因表达在STO细胞中下调。因此,随后尝试使用更高的STO细胞密度来优化培养条件。值得注意的是,通过碱性磷酸酶染色、定量实时PCR和免疫细胞化学测定,在3X的STO细胞密度(187500个细胞/cm2)上培养的猪ESCs表现出与在1X的原代MEF密度(62500个细胞/cm3)下培养的猪ESC最相似的多能状态。此外,在STO细胞密度为3X的条件下培养的猪胚胎干细胞形成了复杂的畸胎瘤,其中包含来自所有三个胚层的多种类型的组织。我们使用最佳STO细胞密度的培养条件可应用于需要可重复和可扩展生产猪ESCs的领域,如临床前研究和细胞农业。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Development of Reproducible and Scalable Culture Conditions for In Vitro Maintenance of Pig Embryonic Stem Cells Using the Sandoz Inbred Swiss Mouse Thioguanine-Resistant Ouabain-Resistant Cell Line as a Feeder Layer.

Feeder cells play a crucial role in maintaining the pluripotency of embryonic stem cells (ESCs) by secreting various extrinsic regulators, such as extracellular matrix (ECM) proteins and growth factors. Although primary mouse embryonic fibroblasts (MEFs) are the most widely used feeder cell type for the culture of ESCs, they have inevitable disadvantages such as batch-to-batch variation and labor-intensive isolation processes. Here, we revealed that the Sandoz inbred Swiss Mouse (SIM) thioguanine-resistant ouabain-resistant (STO) cell line, an immortalized cell line established from mouse SIM embryonic fibroblasts, can be used as a feeder layer for in vitro culture of authentic pig ESCs instead of primary MEFs. First, the expression of genes encoding ECM proteins and growth factors was analyzed to compare their secretory functions as feeder cells. Quantitative real-time polymerase chain reaction (qPCR) showed that the gene expression of these pluripotency-associated factors was downregulated in STO cells compared to primary MEFs of similar density. Therefore, subsequent optimization of the culture conditions was attempted using higher STO cell densities. Notably, pig ESCs cultured on STO cell density of 3 × (187,500 cells/cm2) exhibited the most similar pluripotent state to pig ESCs cultured on primary MEF density of 1 × (62,500 cells/cm2), as determined by alkaline phosphatase staining, qPCR, and immunocytochemistry. In addition, pig ESCs cultured on STO cell density of 3 × formed complex teratoma containing multiple types of tissues derived from all three germ layers. Our culture conditions using optimal STO cell density can be applied to fields requiring reproducible and scalable production of pig ESCs, such as preclinical research and cellular agriculture.

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