Ejeskär Katarina, Fransson Susanne, Zaibak Faten, Ioannou Panayiotis A
Murdoch Children's Research Institute, Melbourne University, Royal Children's Hospital, Australia.
Int J Mol Med. 2006 Jun;17(6):1011-6.
Here we report a method for efficient transfection of in vitro-transcribed mRNA into two different types of human adherent cells, the neuroblastoma cell line SK-N-AS, and the transformed kidney cell line HEK293. By using newly trypsinized adherent cells in suspension and Lipofectaminetrade mark 2000, we detected a transfection efficiency of 80-90% in both cell lines and a cell viability of 90% in SK-N-AS and 60% in HEK293, 24 h after transfection when using cytoplasmic enhanced green fluorescent protein (EGFP)-mRNA. We have evaluated the different effects of the generally used EGFP that mainly localizes to the cytoplasm and nuclear EGFP, where the nuclear EGFP are more toxic to the cells than the cytoplasmic EGFP. In order to develop a null experiment, we constructed a short non-functional mRNA including a nuclear localization signal and evaluated the concentrations at which mRNA encoding nuclear proteins can be added without a general toxicity, depending on the fact that the proteins are localized to the nucleus. For both SK-N-AS and HEK293 cells, a concentration of up to 100 ng mRNA in 10(5) cells, encoding a nuclear protein with no other function, did not affect the cells. For evaluation of the method, we screened four different human mRNAs, PDG, DFFA, CORT and PEX14, for their ability to affect cell proliferation in these cells. PEX14 was the only gene that significantly (p=0.03) reduced cell proliferation for both cell types, DFFA significantly (p=0.04) reduced cell proliferation in SK-N-AS but not in HEK293 cells. PGD and CORT did not have any effect on cell proliferation. We have developed an easy method for efficient delivery of in vitro-transcribed mRNA into the adherent cell lines, SK-N-AS and HEK293. This method is useful for a quick screening of how different genes affect cell proliferation.
在此,我们报告一种将体外转录的mRNA高效转染到两种不同类型人贴壁细胞中的方法,这两种细胞分别是神经母细胞瘤细胞系SK-N-AS和转化的肾细胞系HEK293。通过使用新胰蛋白酶消化后处于悬浮状态的贴壁细胞以及Lipofectamine™ 2000,当使用细胞质增强型绿色荧光蛋白(EGFP)-mRNA时,我们在转染24小时后检测到两种细胞系的转染效率均为80 - 90%,SK-N-AS细胞的活力为90%,HEK293细胞的活力为60%。我们评估了通常使用的主要定位于细胞质的EGFP和核EGFP的不同影响,其中核EGFP对细胞的毒性比细胞质EGFP更大。为了开展一项空白实验,我们构建了一种包含核定位信号的短的无功能mRNA,并根据蛋白质定位于细胞核这一事实,评估在不产生一般毒性的情况下可以添加编码核蛋白的mRNA的浓度。对于SK-N-AS和HEK293细胞,在10⁵个细胞中加入浓度高达100 ng编码无其他功能的核蛋白的mRNA,均不会影响细胞。为了评估该方法,我们筛选了四种不同的人mRNA,即PDG、DFFA、CORT和PEX14,以研究它们影响这些细胞增殖的能力。PEX14是唯一对两种细胞类型的细胞增殖均有显著(p = 0.03)抑制作用的基因,DFFA对SK-N-AS细胞的细胞增殖有显著(p = 0.04)抑制作用,但对HEK293细胞无此作用。PGD和CORT对细胞增殖没有任何影响。我们开发了一种将体外转录的mRNA高效递送至贴壁细胞系SK-N-AS和HEK293的简便方法。该方法对于快速筛选不同基因如何影响细胞增殖很有用。
