Identification of consensus sequence from matrix attachment regions and functional analysis of its activity in stably transfected Chinese hamster ovary cells

Matrix attachment regions (MARs) can enhance transgene expression levels and maintain stability. However, the consensus sequence from MARs and its functional analysis remains to be examined. Here, we assessed a possible consensus sequence from MARs and assessed its activity in stably transfected Chinese hamster ovary (CHO) cells. First, we analyzed the effects of 10 MARs on transfected CHO cells and then analyzed the consensus motifs from these MARs using a bioinformatics method. The consensus sequence was synthesized and cloned upstream or downstream of the eukaryotic vector. The constructs were transfected into CHO cells and the expression levels and stability of enhanced green fluorescent protein were detected by flow cytometry. The results indicated that eight of the ten MARs increased transgene expression in transfected CHO cells. Three consensus motifs were found after bioinformatics analyses. The consensus sequence tandemly enhanced transgene expression when it was inserted into the eukaryotic expression vector; the effect of the addition upstream was stronger than that downstream. Thus, we found a MAR consensus sequence that may regulate the MAR-mediated increase in transgene expression.     

Two human MARs effectively increase transgene expression in transfected CHO cells

Matrix attachment regions (MARs) can enhance the expression level of transgene in Chinese hamster ovaries (CHO) cell expression system. However, improvements in function and analyses of the mechanism remains unclear. In this study, we screened two new and more functional MAR elements from the human genome DNA. The human MAR‐3 and MAR‐7 element were cloned and inserted downstream of the polyA site in a eukaryotic vector. The constructs were transfected into CHO cells, and screened under G418 to produce the stably transfected cell pools. The expression levels and stability of enhanced green fluorescent protein (eGFP) were detected by flow cytometry. The transgene copy number and transgene expression at mRNA level were detected by quantitative real‐time PCR. The results showed that the expression level of eGFP of cells transfected with MAR‐containing vectors were all higher than those of the vectors without MARs under transient and stably transfection. The enhancing effect of MAR‐7 was higher than that of MAR‐3. Additionally, we found that MAR significantly increased eGFP copy numbers and eGFP gene mRNA expression level as compared with the vector without. In conclusion, MAR‐3 and MAR‐7 gene can promote the expression of transgene in transfected CHO cells, and its effect may be related to the increase of the number of copies.     

Identification of a potent MAR element from the mouse genome and assessment of its activity in stable and transient transfections

Matrix attachment regions are DNA sequences found throughout eukaryotic genomes that are believed to define boundaries interfacing heterochromatin and euchromatin domains, thereby acting as epigenetic regulators. When included in expression vectors, MARs can improve and sustain transgene expression, and a search for more potent novel elements is therefore actively pursued to further improve recombinant protein production. Here we describe the isolation of new MARs from the mouse genome using a modified in silico analysis. One of these MARs was found to be a powerful activator of transgene expression in stable transfections. Interestingly, this MAR also increased GFP and/or immunoglobulin expression from some but not all expression vectors in transient transfections. This effect was attributed to the presence or absence of elements on the vector backbone, providing an explanation for earlier discrepancies as to the ability of this class of elements to affect transgene expression under such conditions.     

Positional effects of the matrix attachment region on transgene expression in stably transfected CHO cells

Previous work has shown that the MAR (matrix attachment region) could increase transgene expression in stably transfected CHO (Chinese‐hamster ovary) cells. To study the positional effect of MAR on transgene expression, three expression vectors were constructed which contained the human β‐globin MAR in different sites, including the vector with two MARs flanking the CAT (chloramphenicol acetyltransferase) expression cassette, one MAR at the 5′ or 3′ site. These vectors were transfected into CHO cells. The level of CAT gene expression was most effectively increased by two MARs flanking the CAT expression cassette. This increase was also seen when MAR was inserted at the 5′ site upstream of the expression cassette, whereas the transgene expression level decreased when MAR was inserted at the 3′ site downstream of the expression cassette. We have also shown that the transgene expression level is not directly proportional to the gene copy number, and gene copy number dependency does not exist.     

MAR提高重组CHO细胞中转基因表达的分子特征分析

分析核基质结合区（matrix attachment region,MAR）调控转基因表达的分子序列特征,鉴定能有效提高CHO细胞转基因表达的MAR特征性元件。将人β-珠蛋白MAR片段从5′到3′ 端分为6个分段（1～540,421～1 020,901～1 500,1 381～1 980,1 861～2 460,2 341～2 999位置）,分别采用PCR进行克隆,经测序证实正确后,分别连接到含有氯霉素乙酰转移酶（chloramphenicol acetyltransferase,CAT）报告基因的表达载体SV40启动子及上游,构建β-珠蛋白MAR渐次片段介导的表达载体,转染CHO细胞,G418筛选出稳定表达细胞株,ELISA分析CAT报告基因的表达水平,生物信息学分析MAR序列特征。结果表明,β-珠蛋白MAR全长能显著提高转基因的表达,6个渐次片段相比较,421～1 020位的第2个分段和 901～1 500位的第3个分段提高转基因表达作用显著。生物信息学分析结果显示,MAR-like motif有助于转基因表达提高。     

Enhancing expression level and stability of transgene mediated by episomal vector via buffering DNA methyltransferase in transfected CHO cells

Nonviral episomal vectors present attractive alternative vehicles for gene therapy applications. Previously, we have established a new type of nonviral episomal vector-mediated by the characteristic motifs of matrix attachment regions (MARs), which is driven by the cytomegalovirus (CMV) promoter. However, the CMV promoter is intrinsically susceptible to silencing, resulting in declined productivity during long-term culture. In this study, Chinese hamster ovary (CHO) cells and DNA methyltransferase-deficient (Dnmt3a-deficient) CHO cells were transfected with plasmid-mediated by MAR, or CHO cells were treated with the DNA methylation inhibitor 5-Aza-2′-deoxycytidine. Flow cytometry, plasmid rescue experiments, fluorescence in-situ hybridization (FISH), and bisulfite sequencing were performed to observe transgene expression, its state of existence, and the CpG methylation level of the CMV promoter. The results indicated that all DNA methylation inhibitor and methyltransferase deficient cells could increase transgene expression levels and stability in the presence or absence of selection pressure after a 60-generation culture. Plasmid rescue assay and FISH analysis showed that the vector still existed episomally after long-time culture. Moreover, a relatively lower CMV promoter methylation level was observed in Dnmt3a-deficient cell lines and CHO cells treated with 5-Aza-2′-deoxycytidine. In addition, Dnmt3a-deficient cells were superior to the DNA methylation inhibitor treatment regarding the transgene expression and long-term stability. Our study provides the first evidence that lower DNA methyltransferase can enhance expression level and stability of transgenes mediated by episomal vectors in transfected CHO cells.     

SV40 intron,a potent strong intron element that effectively increases transgene expression in transfected Chinese hamster ovary cells

Chinese hamster ovary (CHO) cells have become the most widely utilized mammalian cell line for the production of recombinant proteins. However, the product yield and transgene instability need to be further increased and solved. In this study, we investigated the effect of five different introns on transgene expression in CHO cells. hCMV intron A, adenovirus tripartite leader sequence intron, SV40 intron, Chinese hamster EF‐1alpha gene intron 1 and intervening sequence intron were cloned downstream of the eGFP expression cassette in a eukaryotic vector, which was then transfected into CHO cells. qRT‐PCR and flow cytometry were used to explore eGFP expression levels. And gene copy number was also detected by qPCR, respectively. Furthermore, the erythropoietin (EPO) protein was used to test the selected more strong intron. The results showed that SV40 intron exhibited the highest transgene expression level among the five compared intron elements under transient and stable transfections. In addition, the SV40 intron element can increase the ratio of positive colonies and decrease the coefficient of variation in transgene expression level. Moreover, the transgene expression level was not related to the gene copy number in stable transfected CHO cells. Also, the SV40 intron induced higher level of EPO expression than IVS intron in transfected CHO cell. In conclusion, SV40 intron is a potent strong intron element that increases transgene expression, which can readily be used to more efficient transgenic protein production in CHO cells.     

Evaluation of different vector design strategies for the expression of recombinant monoclonal antibody in CHO cells

Monoclonal antibodies (mAbs) have emerged as the most promising category of recombinant proteins due to their high efficiency for the treatment of a wide range of human diseases. The complex nature of mAbs creates a great deal of challenges in both upstream and downstream manufacturing processes. Proportional expression and correct folding and assembly of the light chain and heavy chain are required for efficient production of the mAbs. In this regard, expression vector design has proven to have profound effects on the antibody expression level as well as its stability and quality. Here, we have explored the efficiency of different vector design strategies for the expression of a recombinant IgG1 antibody in Chinese hamster ovary (CHO) cells. The antibody expression level was analyzed in transient expression and stable cell pools followed by expression analysis on single-cell clones. While detectable amounts of antibody were observed in all three systems, dual-promoter single-vector system showed the highest expression level in transient and stable expression as well as the highest productivity among clonal cells. Our results here show the importance of vector design for successful production of whole mAbs in CHO cells.     

Novel short synthetic matrix attachment region for enhancing transgenic expression in recombinant Chinese hamster ovary cells

Matrix attachment regions (MARs) are DNA fragments with specific motifs that enhance transgenic expression; however, the characteristics and functions of these elements remain unclear. In this study, we designed and synthesized three short chimeric MARs, namely, SM4, SM5, and SM6, with different numbers and orders of motifs on the basis of the features and motifs of previously reported MARs, namely, SM1, SM2, and SM3, respectively. Expression vectors with six synthetic MARs flanking the down or upstream of the expression cassette for enhanced green fluorescence protein (EGFP) were constructed and introduced into Chinese hamster ovary (CHO) cells. Results indicated that the EGFP expression of the CHO cells with transfection bySM4, SM5, or SM6-containing vectors was higher than that of those containing SM1, SM2, or SM3 regardless of the MAR insertion position. The improving effect of SM5 was particularly pronounced. Transgenic expression was further enhanced with the increasing SM5 copy number. Bioinformatics analysis indicated that several arrangements of the DNA-binding motifs for CEBP, FAST, Hox, glutathione, and NMP4 may help increase transgenic expression levels and the average population of highly expressed cells. Our findings on novel synthetic MARs will help establish stable expression systems in mammalian cells.     

CRISPR/Cas9‐mediated gene knockout for DNA methyltransferase Dnmt3a in CHO cells displays enhanced transgenic expression and long‐term stability

CHO cells are the preferred host for the production of complex pharmaceutical proteins in the biopharmaceutical industry, and genome engineering of CHO cells would benefit product yield and stability. Here, we demonstrated the efficacy of a Dnmt3a‐deficient CHO cell line created by CRISPR/Cas9 genome editing technology through gene disruptions in Dnmt3a, which encode the proteins involved in DNA methyltransferases. The transgenes, which were driven by the 2 commonly used CMV and EF1α promoters, were evaluated for their expression level and stability. The methylation levels of CpG sites in the promoter regions and the global DNA were compared in the transfected cells. The Dnmt3a‐deficent CHO cell line based on Dnmt3a KO displayed an enhanced long‐term stability of transgene expression under the control of the CMV promoter in transfected cells in over 60 passages. Under the CMV promoter, the Dnmt3a‐deficent cell line with a high transgene expression displayed a low methylation rate in the promoter region and global DNA. Under the EF1α promoter, the Dnmt3a‐deficient and normal cell lines with low transgene expression exhibited high DNA methylation rates. These findings provide insight into cell line modification and design for improved recombinant protein production in CHO and other mammalian cells.     

玉米核基质结合区在烟草中对外源转基因表达水平的影响

为研究核基质结合区(matrix attachment region, MAR)在转基因植物中的功能,将来自玉米基因组的MAR序列构建在植物表达载体T-DNA中, 并将报告基因β-葡糖醛酸酶(β-glucuronidase, GUS)基因(uidA)插入两段MARs序列之间.将此载体与不包含MARs序列的植物表达载体分别转化烟草(Nicotiana tabacum L.).GUS活性检测表明,MARs可以显著提高外源基因uidA在转基因烟草中的表达水平,平均表达水平提高2倍,最高单株活性可达10倍.并且转基因植株GUS活性高低与稳定mRNA的量成正比,表明MARs在转录水平提高基因表达.     

Expression of Porcine Growth Hormone Gene in CHO Cell

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Evidence that phosphatidylcholine-specific phospholipase C is a key molecule mediating insulin-induced enhancement of gene expression from human cytomegalovirus promoter in CHO cells

The signal transduction from insulin to its receptors and Ras has been extensively studied, while little has been reported beyond these steps. We found that the expression of human interleukin 6 gene under the control of immediate early gene promoter of human cytomegalovirus was enhanced by insulin sitmulation in Chinese hamster ovary cells. The induction effect of insulin was not significantly affected by inhibitors or activators of conventional protein kinase C, cAMP dependent protein kinase and phosphoinositide -3 kinase, however, pre-incubation of the cells with D609, a specific inhibitors of phosphatidylcholine-specific phospholipase C completely abolished the induction effect. These results clearly demonstrate that phosphatidylcholine-specific phospholipase C is a key molecule mediating insulin-induced enhancement of hIL-6 expression from the human cytomegalovirus promoter in Chinese hamster ovary cells and strongly suggest that it plays an important role in the insulin signaling pathways.Abbreviations CHO – Chinese hamster ovary; hCMV promoter – immediate early gene promoter of human cytomegalovirus; hIL-6 – human interleukin 6; PC-PLC-phosphatidylcholine-specific phospholipase C; PI-3 kinase – phosphoinositide 3 kinase; PKA – cAMP dependent protein kinase; PKC – protein kinase C.     

长效人促卵泡激素CHO细胞株的构建及其体内活性

促卵泡激素(FSH)是具有促进卵泡与睾丸发育作用的一种垂体糖蛋白激素。因其体内半衰期较短,临床上需要连续10 d以上每天注射,病人使用非常不方便。本文旨在通过提高糖基化程度,研制一种长效FSH。通过一段含有两个N-糖基化位点的连接序列,将人FSHα链与β链cDNA融合,并插入pcDNA3.1(+)表达载体。表达载体转染CHO-K1细胞后,通过G418筛选得到阳性单克隆细胞,并经PCR和Western blotting证实。该重组FSH为单链蛋白,分子量约为49 kDa。经无血清培养,工程细胞株培养上清液中重组FSH的表达量可达3 mg/L。单次注射该重组FSH能够促进大鼠卵巢发育与卵泡成熟,且药效与连续8次注射Folltropin-V的相近。实验结果显示,本研究已成功获得一种长效重组FSH。     

Transient CHO expression platform for robust antibody production and its enhanced N-glycan sialylation on therapeutic glycoproteins

Large-scale transient expression in mammalian cells is a rapid protein production technology often used to shorten overall timelines for biotherapeutics drug discovery. In this study we demonstrate transient expression in a Chinese hamster ovary (CHO) host (ExpiCHO-S™) cell line capable of achieving high recombinant antibody expression titers, comparable to levels obtained using human embryonic kidney (HEK) 293 cells. For some antibodies, ExpiCHO-S™ cells generated protein materials with better titers and improved protein quality characteristics (i.e., less aggregation) than those from HEK293. Green fluorescent protein imaging data indicated that ExpiCHO-S™ displayed a delayed but prolonged transient protein expression process compared to HEK293. When therapeutic glycoproteins containing non-Fc N-linked glycans were expressed in transient ExpiCHO-S™, the glycan pattern was unexpectedly found to have few sialylated N-glycans, in contrast to glycans produced within a stable CHO expression system. To improve N-glycan sialylation in transient ExpiCHO-S™, we co-transfected galactosyltransferase and sialyltransferase genes along with the target genes, as well as supplemented the culture medium with glycan precursors. The authors have demonstrated that co-transfection of glycosyltransferases combined with medium addition of galactose and uridine led to increased sialylation content of N-glycans during transient ExpiCHO-S™ expression. These results have provided a scientific basis for developing a future transient CHO system with N-glycan compositions that are similar to those profiles obtained from stable CHO protein production systems. © 2018 American Institute of Chemical Engineers Biotechnol. Prog., 35: e2724, 2019