For the process of transient transfection (TTF), DNA is often transported into the cells using polyplexes. The polyplex uptake and the subsequent transient expression of the gene of interest are of great importance for a successful transfection. In this study, we investigated a 3D-printed microfluidic system designed to facilitate direct TTF for suspension of CHO–K1 cells. The results demonstrate that this system achieves significantly better results than the manual approach. Furthermore, the effect of both post-transfection incubation time (t) and temperature (T) on polyplex uptake was explored in light of the membrane phase transitions. Attention was paid to obtaining the highest possible transfection efficiency (TFE), viability (V), and viable cell concentration (VCC). Our results show that transfection output measured as product of VCC and TFE is optimal for t = 1 h at T = 22 °C. Moreover, post-transfection incubation at T = 22 °C with short periods of increased T at T = 40 °C were observed to further increase the output. Finally, we found that around T = 19 °C, the TFE increases strongly. This is the membrane phase transition T of CHO-K1 cells, and those results therefore suggest a correlation between membrane order and permeability (and in turn, TFE).
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机译:对于瞬时转染 (TTF) 过程,DNA 通常使用多链体转运到细胞中。目的基因的多链体摄取和随后的瞬时表达对于成功转染非常重要。在这项研究中,我们研究了一种 3D 打印的微流控系统,该系统旨在促进 CHO-K1 细胞悬浮的直接 TTF。结果表明,该系统获得的结果明显优于手动方法。此外,根据膜相变,探讨了转染后孵育时间 (t) 和温度 (T) 对多链体摄取的影响。注意获得尽可能高的转染效率 (TFE)、活力 (V) 和活细胞浓度 (VCC)。我们的结果表明,在 T = 22 °C 下,作为 VCC 和 TFE 的乘积测量的转染输出在 t = 1 h 时是最佳的。 此外,观察到在 T = 22 °C 下转染后孵育,在 T = 40 °C 下 T 短暂增加,以进一步提高产量。最后,我们发现在 T = 19 °C 左右,TFE 急剧增加。这是 CHO-K1 细胞的膜相变 T,因此这些结果表明膜顺序和通透性(反过来,TFE)之间存在相关性。
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