GENYO-Centre Pfizer-University of Granada-Government of Andalucía for Genomic and Oncological Research, Avda de la Ilustración, Granada, Spain.
Tissue Eng Part C Methods. 2012 May;18(5):387-96. doi: 10.1089/ten.TEC.2011.0546. Epub 2012 Jan 26.
Despite the improvements in the human embryonic stem cell (hESC) culture systems, very similar conditions to those used to maintain hESCs on mouse feeders are broadly applied to culture methods based on human feeders. Indeed, basic fibroblast growth factor (bFGF), a master hESC-sustaining factor, is still added in nearly all medium formulations for hESC propagation. Human foreskin fibroblasts (HFFs) and mesenchymal stem cells (MSCs) used as feeders have recently been reported to support hESC growth without exogenous bFGF. However, whether hESCs may be maintained undifferentiated without exogenous bFGF using media conditioned (CM) by human feeders remains elusive. We hypothesize that HFFs and hMSCs are likely to be functionally different and therefore the mechanisms by which HFF-CM and MSC-CM support undifferentiated growth of hESCs may differ. We have thus determined whether HFF-CM and/or MSC-CM sustain feeder-free undifferentiated growth of hESC without exogenous supplementation of bFGF. We report that hMSCs synthesize higher levels of endogenous bFGF than HFFs. Accordingly and in contrast to HFF-CM, MSC-CM produced without the addition of exogenous bFGF supports hESC pluripotency and culture homeostasis beyond 20 passages without the need of bFGF supplementation. hESCs maintained without exogenous bFGF in MSC-CM retained hESC morphology and expression of pluripotency surface markers and transcription factors, formed teratomas, and showed spontaneous and lineage-directed in vitro differentiation capacity. Our data indicate that MSC-CM, but not HFF-CM, provides microenvironment cues supporting feeder-free long-term maintenance of pluripotent hESCs and obviates the requirement of exogenous bFGF at any time.
尽管人类胚胎干细胞(hESC)培养系统有所改进,但广泛应用于基于人源饲养细胞的培养方法的条件与维持 hESC 在鼠源饲养细胞上生长的条件非常相似。事实上,碱性成纤维细胞生长因子(bFGF)作为维持 hESC 的主要因子,仍几乎添加在所有用于 hESC 扩增的培养基配方中。最近有报道称,作为饲养细胞的人包皮成纤维细胞(HFF)和间充质干细胞(MSC)在没有外源性 bFGF 的情况下支持 hESC 生长。然而,使用饲养细胞条件培养基(CM)是否可以在没有外源性 bFGF 的情况下维持 hESC 未分化状态仍不清楚。我们假设 HFF 和 hMSC 可能具有不同的功能,因此 HFF-CM 和 MSC-CM 支持 hESC 未分化生长的机制可能不同。因此,我们确定了 HFF-CM 和/或 MSC-CM 是否可以在不补充外源性 bFGF 的情况下维持无饲养细胞的 hESC 未分化生长。我们报告称,hMSC 合成的内源性 bFGF 水平高于 HFF。因此,与 HFF-CM 相反,在不添加外源性 bFGF 的情况下制备的 MSC-CM 支持 hESC 多能性和培养平衡超过 20 代,而无需补充 bFGF。在 MSC-CM 中不添加外源性 bFGF 维持的 hESC 保留了 hESC 形态和多能性表面标志物和转录因子的表达,形成畸胎瘤,并表现出自发和谱系定向的体外分化能力。我们的数据表明,MSC-CM 而不是 HFF-CM 提供了支持无饲养细胞长期维持多能性 hESC 的微环境线索,并在任何时候都消除了对外源性 bFGF 的需求。
