1 Institute of Biomaterials and Biomedical Engineering, University of Toronto , Toronto, Ontario, Canada .
2 Faculty of Dentistry, University of Toronto , Toronto, Ontario, Canada .
Stem Cells Dev. 2018 Jan 1;27(1):44-54. doi: 10.1089/scd.2017.0179. Epub 2017 Dec 20.
Tumor necrosis factor alpha (TNF-α) induced protein 6 is a major anti-inflammatory mediator released by activated mesenchymal stromal cells (MSCs). Neonatal MSCs are considered more metabolically active than cells derived from adult tissues, and potentially less heterogeneous. We hypothesized that a TNF-α-activated neonatal MSC population [human umbilical cord perivascular cells (HUCPVCs)] would show an enhanced level of TSG-6 activation compared with adult bone marrow MSCs (BMMSCs). Thus, we stimulated HUCPVCs, and both human BMMSCs (hBMMSCs) and mouse BMMSCs (mBMMSCs) with 1, 10, 50, and 100 ng/mL of recombinant TNF-α over various exposure times. Supernatant, and total RNA, of the cells were collected for measurement of both TSG-6 RNA expression, and secreted TSG-6 protein. To compare gene levels, quantification was done by normalizing the expression levels of TSG-6 to the geometric mean of the three most stable reference genes, out of a cohort of 30 tested genes, using the Pfaffl method. We found that HUCPVCs exhibited both an enhanced and more rapid response to low dose (1 ng/mL) TNF-α exposure resulting in ∼11.5-fold increase in TSG-6 expression within the first 30 min. In contrast, hBMMSCs showed 2-fold increase by 1 h that increased to 9.5-fold with a higher (50 ng/mL) TNF-α exposure for the same time. mBMMSCs showed a two-fold increase after 24 h that was independent of TNF-α concentration. Thus, although TSG-6 expression level varied among donors, both hMSC populations exhibited enhanced TSG-6 upregulation, upon TNF-α stimulation, compared with mBMMSCs. In conclusion, HUCPVCs showed higher sensitivity, and a prompter response to TNF-α stimulation compared with hBMMSCs. Thus, neonatal MSCs may be a stronger candidate population than those derived from adult bone marrow to treat inflammatory diseases.
肿瘤坏死因子-α(TNF-α)诱导蛋白 6 是一种由激活的间充质基质细胞(MSCs)释放的主要抗炎介质。新生儿 MSCs 被认为比来自成人组织的细胞具有更高的代谢活性,并且潜在的异质性更小。我们假设,与成人骨髓 MSCs(BMMSCs)相比,TNF-α 激活的新生儿 MSC 群体[人脐带血管周细胞(HUCPVCs)]将显示出更高水平的 TSG-6 激活。因此,我们用 1、10、50 和 100ng/mL 的重组 TNF-α 刺激 HUCPVCs 以及人 BMMSCs(hBMMSCs)和小鼠 BMMSCs(mBMMSCs),并在不同的暴露时间内收集细胞的上清液和总 RNA,用于测量 TSG-6 RNA 表达和分泌的 TSG-6 蛋白。为了比较基因水平,通过使用 Pfaffl 方法,将 TSG-6 的表达水平归一化为 30 个测试基因中的 3 个最稳定的参考基因的几何平均值,对基因水平进行定量。我们发现,HUCPVCs 对低剂量(1ng/mL)TNF-α 暴露表现出增强和更快的反应,导致 TSG-6 在最初的 30 分钟内表达增加约 11.5 倍。相比之下,hBMMSCs 在 1 小时时表现出 2 倍的增加,而在相同时间内用更高的(50ng/mL)TNF-α 暴露时增加到 9.5 倍。mBMMSCs 在 24 小时后表现出 2 倍的增加,且与 TNF-α 浓度无关。因此,尽管 TSG-6 的表达水平在供体之间存在差异,但与 mBMMSCs 相比,两种 hMSC 群体在 TNF-α 刺激下均表现出增强的 TSG-6 上调。总之,与 hBMMSCs 相比,HUCPVCs 对 TNF-α 刺激表现出更高的敏感性和更迅速的反应。因此,与来自成人骨髓的 MSC 相比,新生儿 MSC 可能是治疗炎症性疾病的更强候选群体。
