Robbins P B, Yu X J, Skelton D M, Pepper K A, Wasserman R M, Zhu L, Kohn D B
Department of Molecular Microbiology and Immunology, University of Southern California School of Medicine, Los Angeles, USA.
J Virol. 1997 Dec;71(12):9466-74. doi: 10.1128/JVI.71.12.9466-9474.1997.
Gene expression from the Moloney murine leukemia retrovirus (Mo-MuLV) is highly restricted in embryonic carcinoma (EC) and embryonic stem (ES) cells. We compared levels of expression in PA317 fibroblasts, F9 (EC) cells, and CCE (ES) cells by Mo-MuLV-based vectors and vectors based on our previously reported MND backbone, which has alterations to address three viral elements implicated as repressors of expression by Mo-MuLV: the enhancer, the primer binding site, and the negative-control region. Expression was evaluated with three reporter genes, the chloramphenicol acetyltransferase (CAT) gene, whose expression was measured by enzymatic assay and by Northern blotting; a truncated nerve growth factor receptor (tNGFR), whose expression was measured by fluorescence-activated cell sorting (FACS) as a cell surface protein; and the enhanced green fluorescent protein (EGFP), whose expression was measured intracellularly by flow cytometry. We found significantly higher levels of CAT activity (5- to 300-fold) and greater quantities of vector-specific transcripts in ES and EC cells transduced with the modified MND-CAT-SN vector than in those transduced with L-CAT-SN. Northern blot analysis indicated that long terminal repeat transcripts from MND-CAT-SN are >80 times more abundant than the L-CAT-SN transcripts. FACS analysis of tNGFR expression from a pair of vectors, L-tNGFR-SN and MND-tNGFR-SN, indicated that only 1.04% of the CCE cells containing the L-tNGFR-SN vector expressed the cell surface reporter, while the MND-tNGFR-SN vector drove expression in 99.54% of the CCE cells. Of the F9 cells containing the L-tNGFR-SN vector, 13.32% expressed tNGFR, while 99.89% of the F9 cells transduced with MND-tNGFR-SN showed expression. Essentially identical results were produced with an analogous pair of vectors encoding EGFP. In unselected pools of F9 cells 48 h posttransduction, the L-EGFP-SN vector drove expression in only 5% of the population while the MND-EGFP-SN vector drove expression in 88% of the cells. After more than 3 weeks in culture without selection, the proportion of cells showing expression from L-EGFP-SN decreased slightly to 3% while expression from the MND-EGFP-SN vector persisted in 80% of the cells. Interestingly, in the few ES and EC cells which did show expression from the L-tNGFR-SN or L-EGFP-SN vectors, the magnitude of reporter expression was similar to that from the MND-tNGFR-SN or MND-EGFP-SN vector in nearly all cells, suggesting that the MND vectors are far less susceptible to position-dependent variegation of expression than are the Mo-MuLV-based vectors. Therefore, the modified retroviral vector, MND, achieves higher net levels of expression due to a greater frequency of expression, which may be useful for the expression of exogenous genes in EC and ES cells.
莫洛尼鼠白血病逆转录病毒(Mo-MuLV)的基因表达在胚胎癌(EC)细胞和胚胎干细胞(ES)中受到高度限制。我们比较了基于Mo-MuLV的载体以及基于我们先前报道的MND骨架的载体在PA317成纤维细胞、F9(EC)细胞和CCE(ES)细胞中的表达水平。MND骨架针对三个被认为是Mo-MuLV表达抑制因子的病毒元件进行了改造:增强子、引物结合位点和负调控区。使用三个报告基因评估表达情况,氯霉素乙酰转移酶(CAT)基因,其表达通过酶促测定和Northern印迹法测量;截短的神经生长因子受体(tNGFR),其表达通过荧光激活细胞分选(FACS)作为细胞表面蛋白进行测量;以及增强型绿色荧光蛋白(EGFP),其表达通过流式细胞术在细胞内进行测量。我们发现,用修饰的MND-CAT-SN载体转导的ES细胞和EC细胞中的CAT活性水平显著更高(5至300倍),且载体特异性转录本的量也更多,比用L-CAT-SN转导的细胞更高。Northern印迹分析表明,来自MND-CAT-SN的长末端重复转录本比L-CAT-SN转录本丰富80倍以上。对一对载体L-tNGFR-SN和MND-tNGFR-SN的tNGFR表达进行FACS分析表明,含有L-tNGFR-SN载体的CCE细胞中只有1.04%表达细胞表面报告基因,而MND-tNGFR-SN载体在99.54%的CCE细胞中驱动表达。在含有L-tNGFR-SN载体的F9细胞中,13.32%表达tNGFR,而用MND-tNGFR-SN转导的F9细胞中有99.89%显示表达。用一对编码EGFP的类似载体产生了基本相同的结果。在转导后48小时未选择的F9细胞群体中,L-EGFP-SN载体仅在5%的细胞中驱动表达,而MND-EGFP-SN载体在88%的细胞中驱动表达。在无选择的情况下培养超过3周后,显示来自L-EGFP-SN表达的细胞比例略有下降至3%,而来自MND-EGFP-SN载体的表达在仍80%的细胞中持续存在。有趣的是,在少数确实显示来自L-tNGFR-SN或L-EGFP-SN载体表达的ES细胞和EC细胞中,几乎所有细胞中报告基因表达的幅度与来自MND-tNGFR-SN或MND-EGFP-SN载体的相似,这表明MND载体比基于Mo-MuLV的载体更不易受到表达位置依赖性斑驳的影响。因此,修饰的逆转录病毒载体MND由于更高的表达频率而实现了更高的净表达水平,这可能对外源基因在EC细胞和ES细胞中的表达有用。
