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首页> 美国卫生研究院文献>Bioengineering >Impact of Dual Cell Co-culture and Cell-conditioned Media on Yield and Function of a Human Olfactory Cell Line for Regenerative Medicine
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Impact of Dual Cell Co-culture and Cell-conditioned Media on Yield and Function of a Human Olfactory Cell Line for Regenerative Medicine

机译:双细胞共培养和细胞条件培养基对再生医学人类嗅觉细胞系产量和功能的影响

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Olfactory ensheathing cells (OECs) are a promising candidate therapy for neuronal tissue repair. However, appropriate priming conditions to drive a regenerative phenotype are yet to be determined. We first assessed the effect of using a human fibroblast feeder layer and fibroblast conditioned media on primary rat olfactory mucosal cells (OMCs). We found that OMCs cultured on fibroblast feeders had greater expression of the key OEC marker p75NTR (25.1 ± 10.7 cells/mm ) compared with OMCs cultured on laminin (4.0 ± 0.8 cells/mm , = 0.001). However, the addition of fibroblast-conditioned media (CM) resulted in a significant increase in Thy1.1 (45.9 ± 9.0 cells/mm versus 12.5 ± 2.5 cells/mm on laminin, = 0.006), an undesirable cell marker as it is regarded to be a marker of contaminating fibroblasts. A direct comparison between human feeders and GMP cell line Ms3T3 was then undertaken. Ms3T3 cells supported similar p75NTR levels (10.7 ± 5.3 cells/mm ) with significantly reduced Thy1.1 expression (4.8 ± 2.1 cells/mm ). Ms3T3 cells were used as feeder layers for human OECs to determine whether observations made in the rat model were conserved. Examination of the OEC phenotype (S100β expression and neurite outgrowth from NG108-15 cells) revealed that co-culture with fibroblast feeders had a negative effect on human OECs, contrary to observations of rat OECs. CM negatively affected rat and human OECs equally. When the best and worst conditions in terms of supporting S100β expression were used in NG108-15 neuron co-cultures, those with the highest S100β expression resulted in longer and more numerous neurites (22.8 ± 2.4 μm neurite lengtheuron for laminin) compared with the lowest S100β expression (17.9 ± 1.1 μm for Ms3T3 feeders with CM). In conclusion, this work revealed that neither dual co-culture nor fibroblast-conditioned media support the regenerative OEC phenotype. In our case, a preliminary rat model was not predictive of human cell responses.
机译:嗅鞘细胞(OECs)是一种有望修复神经元组织的候选疗法。然而,尚未确定合适的引发再生表型的条件。我们首先评估了使用人类成纤维细胞饲养层和成纤维细胞条件培养基对原代大鼠嗅觉粘膜细胞(OMC)的影响。我们发现,与在层粘连蛋白上培养的OMC(4.0±0.8细胞/ mm,= 0.001)相比,在成纤维细胞饲养细胞上培养的OMC具有更高的关键OEC标记p75NTR表达(25.1±10.7 cells / mm)。然而,添加成纤维细胞条件培养基(CM)会导致Thy1.1显着增加(层粘连蛋白上为45.9±9.0细胞/ mm,而层粘连蛋白为12.5±2.5细胞/ mm,= 0.006),这被认为是一种不良的细胞标记成为污染成纤维细胞的标志。然后进行了人类饲养细胞和GMP细胞系Ms3T3之间的直接比较。 Ms3T3细胞支持相似的p75NTR水平(10.7±5.3细胞/ mm),且Thy1.1表达显着降低(4.8±2.1细胞/ mm)。 Ms3T3细胞用作人类OEC的饲养层,以确定大鼠模型中的观察结果是否保守。对OEC表型的检查(S108β表达和NG108-15细胞的神经突向外生长)表明,与成纤维细胞饲养细胞共培养对人OEC具有负面影响,这与对大鼠OEC的观察相反。 CM对大鼠和人类OEC的影响均相同。当在NG108-15神经元共培养中使用支持S100β表达的最佳条件和最差条件时,与S100β表达最高的条件相比,产生的神经突更长和更多(22.8±2.4μm神经突长度/层粘连蛋白的神经元)。 S100β表达最低(带有CM的Ms3T3饲养者为17.9±1.1μm)。总之,这项工作表明双重共培养和成纤维细胞条件培养基均不支持再生OEC表型。在我们的案例中,初步的大鼠模型不能预测人类细胞反应。

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