Improved vectors for stable expression of foreign genes in mammalian cells by use of the untranslated leader sequence from EMC virus.

Dicistronic mRNA expression vectors efficiently translate a 5' open reading frame (ORF) and contain a selectable marker within the 3' end which is inefficiently translated. In these vectors, the efficiency of translation of the selectable 3' ORF is reduced approximately 100-fold and is highly dependent on the particular sequences inserted into the 5' cloning site. Upon selection for expression of the selection marker gene product, deletions within the 5' ORF occur to yield more efficient translation of the selectable marker. We have generated improved dicistronic mRNA expression vectors by utilization of a putative internal ribosomal entry site isolated from encephalomyocarditis (EMC) virus. Insertion of the EMC virus leader sequence upstream of an ORF encoding either a wildtype or methotrexate resistant dihydrofolate reductase (DHFR) reduces DHFR translation up to 10-fold in a monocistronic DHFR expression vector. However, insertion of another ORF upstream of the EMC leader to produce a dicistronic mRNA does not further reduce DHFR translation. In the presence of the EMC virus leader, DHFR translation is not dependent on sequences inserted into the 5' end of the mRNA. We demonstrate that stable high level expression of inserted cDNAs may be rapidly achieved by selection for methotrexate resistance in DHFR deficient as well as DHFR containing cells. In contrast to previously described dicistronic expression vectors, these new vectors do not undergo rearrangement or deletion upon selection for amplification by propagation in increasing concentrations of methotrexate. The explanation may be either that the EMC virus leader sequence allows internal initiation of translation or that cryptic splice sites in the EMC virus sequence mediate production of monocistronic mRNAs. These vectors may be generally useful to rapidly obtain high level expression of cDNA genes in mammalian cells.     

High-level synthesis of recombinant murine endostatin in Chinese hamster ovary cells

Endostatin, a carboxy-terminal fragment of collagen XVIII, has been shown to act as an anti-angiogenic agent that specifically inhibits proliferation of endothelial cells and growth of various primary tumors. Here, we describe the expression by Chinese hamster ovary (CHO) cells of murine endostatin and of a tagged-fusion protein, (his)6-met-endostatin. A dicistronic mRNA expression vector was utilized in which endostatin cDNA was inserted upstream of the amplifiable marker gene, dihydrofolate reductase (DHFR). After transfection of the expression vectors, stepwise increments in methotrexate levels in the culture medium were applied, promoting gene amplification and increasing expression levels of the proteins of interest. The expression level of secreted native endostatin was about 78 microg/mL while the one for secreted (his)6-met-endostatin was about 114 microg/mL, for the best expressing clones. Characterization of physico-chemical and immunological activities of the proteins was performed using SDS-PAGE and Western blotting. The biological activities of recombinant endostatins were tested with a cow pulmonary artery endothelial (C-PAE) cell proliferation assay. Both recombinant endostatin and (his)6-met-endostatin inhibited, in a dose-dependent fashion, growth of C-PAE cells stimulated by basic fibroblast growth factor (bFGF).     

New adenovirus vectors for protein production and gene transfer

Based on two new adenovirus expression cassettes, we have constructed a series of Ad transfer vectors for the overexpression of one or two genes either in a dicistronic configuration or with separate expression cassettes. Inclusion of the green or blue fluorescent protein in the vectors accelerates the generation of adenovirus recombinants and facilitates the functional characterization of genes both in vitro and in vivo by allowing easy quantification of gene transfer and expression. With our optimized tetracycline-regulated promoter (TR5) we have generated recombinant adenoviruses expressing proteins, that are either cytotoxic or which interfere with adenovirus replication, at levels of 10–15% of total cell protein. Proteins that are not cytotoxic can be produced at levels greater than 20% of total cell protein. As well, these levels of protein production can be achieved with or without adenovirus replication. This yield is similar to what can be obtained with our optimized human cytomegalovirus-immediate early promoter-enhancer (CMV5) for constitutive protein expression in non-complementing cell lines. Using the green fluorescent protein as a reporter, we have shown that a pAdCMV5-derived adenovirus vector expresses about 6-fold more protein in complementing 293 cells and about 12-fold more in non- complementing HeLa cells than an adenovirus vector containing the standard cytomegalovirus promoter. Moreover, a red-shifted variant of green fluorescent protein incorporated in one series of vectors was 12-fold more fluorescent than the S65T mutant, making the detection of the reporter protein possible at much lower levels of expression. This revised version was published online in August 2006 with corrections to the Cover Date.     

Variables Controlling the Expression Level of Exogenous Genes in Dictyostelium

Ectopic expression of genes from recombinant plasmids is commonly used to study gene function. In Dictyostelium, three drug resistance cassettes are commonly used as selectable markers in vectors. We report here a comparative study of the expression of green fluorescent protein (GFP) gene from vectors containing each of the drug-resistant cassettes. The expression was highest in cells transformed with the vectors containing the neomycin-resistant cassette (pDNeoGFP), followed by the hygromycin-resistant cassette (pDHygGFP) and the blasticidin-resistant cassette (pDBsrGFP). The level of GFP expression was directly related to the copy number of the vector in transformants. In turn, the copy number of the vector depended on the drug resistance cassette as well as the concentration of the drug used in selection. In general, cells with higher copy numbers could be selected by a higher drug concentration. The expression of GFP was also affected by the method of transformation. For pDHygGFP, expression of GFP was much higher in cells transformed by electroporation than those transformed by calcium phosphate coprecipitation. However, only a slight difference was observed for pDNeoGFP or pDBsrGFP.     

A rapid selection/amplification procedure for high-level expression of recombinant protein in a metal-amplifiable mammalian expression system

We describe a strategy for the selection and amplification of foreign gene expression in Chinese hamster ovary (CHO) cells employing a metallothionein gene-containing expression vector. This report describes an amplification procedure that results in an enrichment of clones exhibiting high levels of recombinant protein production and reduces the labour required for screening recombinant cell lines.     

Variables controlling the expression level of exogenous genes in Dictyostelium.

Ectopic expression of genes from recombinant plasmids is commonly used to study gene function. In Dictyostelium, three drug resistance cassettes are commonly used as selectable markers in vectors. We report here a comparative study of the expression of green fluorescent protein (GFP) gene from vectors containing each of the drug-resistant cassettes. The expression was highest in cells transformed with the vectors containing the neomycin-resistant cassette (pDNeoGFP), followed by the hygromycin-resistant cassette (pDHygGFP) and the blasticidin-resistant cassette (pDBsrGFP). The level of GFP expression was directly related to the copy number of the vector in transformants. In turn, the copy number of the vector depended on the drug resistance cassette as well as the concentration of the drug used in selection. In general, cells with higher copy numbers could be selected by a higher drug concentration. The expression of GFP was also affected by the method of transformation. For pDHygGFP, expression of GFP was much higher in cells transformed by electroporation than those transformed by calcium phosphate coprecipitation. However, only a slight difference was observed for pDNeoGFP or pDBsrGFP.     

快速筛选高水平稳定表达成纤维细胞生长因子-21真核细胞新株方法的建立

成纤维细胞生长因子-21（FGF-21）是成纤维细胞生长因子家族的一名新成员,其研究已成为世界糖尿病研究的新热点,并有望成为治疗2型糖尿病的新型药物.然而,应用真核表达系统,更加快速、高效生产更接近天然状态的FGF-21蛋白并对其生物学功能进行的研究,至今尚未报道,因此建立高效稳定的FGF-21真核表达系统至关重要.本研究以FGF-21为目的基因,利用谷氨酰胺合成酶基因（GS）和绿色荧光蛋白基因（EGFP）作为筛选标记,分别构建了单基因表达载体Pee124-FGF-21-Pee64-EGFP（Peedual）、Pee124-FGF-21-IRES-EGFP（PeeIRES）和双基因的真核表达载体Pee124-FGF-21-IRES-EGFP-Pee64-FGF-21(Peedual-IRES),分别转染CHO-K1SV细胞后,通过GS加压和流式细胞术（在488 nm波长的激发光下能检测到EGFP绿色荧光）双筛选系统快速有效获得了稳定高效表达目的蛋白的细胞系.应用SDS-PAGE、Western印迹和ELISA检测细胞系目的蛋白的表达及差异,并通过HepG-2细胞糖吸收模型进行蛋白活性检测.研究结果表明：两个筛选系统结合使用,更好更快地筛选到了稳定转染并高效表达目的蛋白的细胞系,而且与单基因的载体相比,双基因载体Peedual-IRES在操作条件一致的情况下,目的蛋白表达量显著提高且均具有生物活性.本研究建立了省时、高效的真核表达平台,为FGF-21在真核水平上的高表达提供了一个新的方法.立了省时、高效的真核表达平台,为FGF-21在真核水平上的高表达提供了一个新的方法.     

Production of a recombinant Fab in Pichia pastoris from a Monocistronic expression vector

Recombinant Fab is usually expressed using dicistronic vectors producing the heavy and light chains separately. We developed an improved vector for Fab fragment expression in Pichia pastoris, which allows a stoichiometric expression of both chains based on a monocistronic arrangement. The protein is produced as a unique polypeptide harbouring a KEX2 processing site between both chains. After KEX cleavage, a correctly folded mature Fab is formed. The produced recombinant protein is characterized as a heterodimeric functional Fab. The vector described is a new tool for the proper expression of antibody fragments or any heterodimeric polypeptides.     

利用谷氨酰胺合成酶基因(GS)作扩增标记在CHO细胞中高效表达乙型肝炎表面抗原基因

利用谷氨酰胺合成酶基因（ＧＳ）［１］作扩增选择标记,结合ＣＭＶ－ＩＥ启动子,在ＣＨＯ细胞中高效表达乙型肝炎表面抗原基因。初筛克隆表达水平ＲＰＨＡ检测为１：６４,经过谷氨酰胺合成酶基因的抑制剂ＭＳＸ的两轮基因扩增,ＨＢｓＡｇ的表达水平ＲＰＨＡ在１：２５６以上。方瓶静置培养收液,ＲＩＡ检测ＨＢｓＡｇ最高产量为９．５μｇ／毫升。表达水平较以前利用ｄｈｆｒ基因扩增选择系统所得到的高表达细胞系Ｂ４３高一倍以上。利用ＧＳ基因扩增选择系统可以在哺乳动物细胞中高水平表达外源基因。     

Methionine sulfoximine supplementation enhances productivity in GS–CHOK1SV cell lines through glutathione biosynthesis

In Lonza Biologics' GS Gene Expression System?, recombinant protein‐producing GS–CHOK1SV cell lines are generated by transfection with an expression vector encoding both GS and the protein product genes followed by selection in MSX and glutamine‐free medium. MSX is required to inhibit endogenous CHOK1SV GS, and in effect create a glutamine auxotrophy in the host that can be complemented by the expression vector encoded GS in selected cell lines. However, MSX is not a specific inhibitor of GS as it also inhibits the activity of GCL (a key enzyme in the glutathione biosynthesis pathway) to a similar extent. Glutathione species (GSH and GSSG) have been shown to provide both oxidizing and reducing equivalents to ER‐resident oxidoreductases, raising the possibility that selection for transfectants with increased GCL expression could result in the isolation of GS–CHOKISV cell lines with improved capacity for recombinant protein production. In this study we have begun to address the relationship between MSX supplementation, the amount of intracellular GCL subunit and mAb production from a panel of GS–CHOK1SV cell lines. We then evaluated the influence of reduced GCL activity on batch culture of an industrially relevant mAb‐producing GS–CHOK1SV cell line. To the best of our knowledge, this paper describes for the first time the change in expression of GCL subunits and recombinant mAb production in these cell lines with the degree of MSX supplementation in routine subculture. Our data also shows that partial inhibition of GCL activity in medium containing 75 µM MSX increases mAb productivity, and its more specific inhibitor BSO used at a concentration of 80 µM in medium increases the specific rate of mAb production eight‐fold and the concentration in harvest medium by two‐fold. These findings support a link between the inhibition of glutathione biosynthesis and recombinant protein production in industrially relevant systems and provide a process‐driven method for increasing mAb productivity from GS–CHOK1SV cell lines. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 33:17–25, 2017     

Improving the efficiency of CHO cell line generation using glutamine synthetase gene knockout cells

Although Chinese hamster ovary (CHO) cells, with their unique characteristics, have become a major workhorse for the manufacture of therapeutic recombinant proteins, one of the major challenges in CHO cell line generation (CLG) is how to efficiently identify those rare, high‐producing clones among a large population of low‐ and non‐productive clones. It is not unusual that several hundred individual clones need to be screened for the identification of a commercial clonal cell line with acceptable productivity and growth profile making the cell line appropriate for commercial application. This inefficiency makes the process of CLG both time consuming and laborious. Currently, there are two main CHO expression systems, dihydrofolate reductase (DHFR)‐based methotrexate (MTX) selection and glutamine synthetase (GS)‐based methionine sulfoximine (MSX) selection, that have been in wide industrial use. Since selection of recombinant cell lines in the GS‐CHO system is based on the balance between the expression of the GS gene introduced by the expression plasmid and the addition of the GS inhibitor, L‐MSX, the expression of GS from the endogenous GS gene in parental CHOK1SV cells will likely interfere with the selection process. To study endogenous GS expression's potential impact on selection efficiency, GS‐knockout CHOK1SV cell lines were generated using the zinc finger nuclease (ZFN) technology designed to specifically target the endogenous CHO GS gene. The high efficiency (～2%) of bi‐allelic modification on the CHO GS gene supports the unique advantages of the ZFN technology, especially in CHO cells. GS enzyme function disruption was confirmed by the observation of glutamine‐dependent growth of all GS‐knockout cell lines. Full evaluation of the GS‐knockout cell lines in a standard industrial cell culture process was performed. Bulk culture productivity improved two‐ to three‐fold through the use of GS‐knockout cells as parent cells. The selection stringency was significantly increased, as indicated by the large reduction of non‐producing and low‐producing cells after 25 µM L‐MSX selection, and resulted in a six‐fold efficiency improvement in identifying similar numbers of high‐productive cell lines for a given recombinant monoclonal antibody. The potential impact of GS‐knockout cells on recombinant protein quality is also discussed. Biotechnol. Bioeng. 2012; 109:1007–1015. © 2011 Wiley Periodicals, Inc.     

Development of a highly-efficient CHO cell line generation system with engineered SV40E promoter

Chinese hamster ovary (CHO) cells have been one of the most widely used host cells for the manufacture of therapeutic recombinant proteins. An effective and efficient clinical cell line development process, which could quickly identify those rare, high-producing cell lines among a large population of low and non-productive cells, is of considerable interest to speed up biological drug development. In the glutamine synthetase (GS)-CHO expression system, selection of top-producing cell lines is based on controlling the balance between the expression level of GS and the concentration of its specific inhibitor, l-methionine sulfoximine (MSX). The combined amount of GS expressed from plasmids that have been introduced through transfection and the endogenous CHO GS gene determine the stringency and efficiency of selection. Previous studies have shown significant improvement in selection stringency by using GS-knockout CHO cells, which eliminate background GS expression from the endogenous GS gene in CHOK1SV cells. To further improve selection stringency, a series of weakened SV40E promoters have been generated and used to modulate plasmid-based GS expression with the intent of manipulating GS-CHO selection, finely adjusting the balance between GS expression and GS inhibitor (MSX) levels. The reduction of SV40E promoter activities have been confirmed by TaqMan RT-PCR and GFP expression profiling. Significant productivity improvements in both bulk culture and individual clonal cell line have been achieved with the combined use of GS-knockout CHOK1SV cells and weakened SV40E promoters driving GS expression in the current cell line generation process. The selection stringency was significantly increased, as indicated by the shift towards higher distribution of producing-cell populations, even with no MSX added into cell culture medium. The potential applications of weakened SV40E promoter and GS-knockout cells in development of targeted integration and transient CHO expression systems are also discussed.     

Posttransformational vector amplification in the yeast Pichia pastoris

Generating a high yield of recombinant protein is a major goal when expressing a foreign gene in any expression system. In the methylotrophic yeast Pichia pastoris , a common means of achieving this end is to select for transformants containing multiple integrated copies of an expression vector by plating them on high levels of a selectable marker drug followed by screening for rare colonies with multiple copies. We describe a more convenient method to select for such clones. Using Zeocin-resistance-based vectors, we demonstrate that strains transformed with only one or a few vector copies can, long after transformation, be subjected to further selection at high levels of drug. This resulted in the frequent selection of clones containing increased copy numbers of the vector. This posttransformational vector amplification (PTVA) process resulted in strains containing multiple head-to-tail copies of the entire vector integrated at a single locus in the genome. Of our PTVA selected clones, 40% showed a three- to fivefold increase in vector copy number. So-called 'jackpot' clones with >10 copies of the expression vector represented 5–6% of selected clones and had a proportional increase in recombinant protein.     

EASE vectors for rapid stable expression of recombinant antibodies

Over the past 10 years, monoclonal antibodies and antibody fragments have become an increasingly important source of therapeutic molecules in the biotechnology industry. Drug development strategies rely on screening large numbers of candidate molecules in search of an optimized drug candidate. This strategy requires efficient production of ten to a few hundred milligrams of candidate molecules for screening in bioassays and animal models. Typically, this amount of recombinant protein expression involves large numbers of transient transfections or cloning of a recombinant cell line. Both of these approaches are time-consuming and labor-intensive. In this report, we describe the application of an EASE vector system that is capable of generating stable pools of transfected Chinese hamster ovary cells. These pooled populations of cells produce high quantities of antibody candidates without labor-intensive cloning in a 3-5 week time frame. When an optimal drug candidate has been selected, pools generated with EASE-containing vectors can also be used in subsequent cloning steps to make cell lines with improved expression levels. We demonstrate that EASE increases expression in nonamplified pools in addition to increasing amplification and viability of clonal cell lines generated with the EASE-containing vectors compared with pools and cell lines generated without EASE.     

A Versatile Viral System for Expression and Depletion of Proteins in Mammalian Cells

The ability to express or deplete proteins in living cells is crucial for the study of biological processes. Viral vectors are often useful to deliver DNA constructs to cells that are difficult to transfect by other methods. Lentiviruses have the additional advantage of being able to integrate into the genomes of non-dividing mammalian cells. However, existing viral expression systems generally require different vector backbones for expression of cDNA, small hairpin RNA (shRNA) or microRNA (miRNA) and provide limited drug selection markers. Furthermore, viral backbones are often recombinogenic in bacteria, complicating the generation and maintenance of desired clones. Here, we describe a collection of 59 vectors that comprise an integrated system for constitutive or inducible expression of cDNAs, shRNAs or miRNAs, and use a wide variety of drug selection markers. These vectors are based on the Gateway technology (Invitrogen) whereby the cDNA, shRNA or miRNA of interest is cloned into an Entry vector and then recombined into a Destination vector that carries the chosen viral backbone and drug selection marker. This recombination reaction generates the desired product with >95% efficiency and greatly reduces the frequency of unwanted recombination in bacteria. We generated Destination vectors for the production of both retroviruses and lentiviruses. Further, we characterized each vector for its viral titer production as well as its efficiency in expressing or depleting proteins of interest. We also generated multiple types of vectors for the production of fusion proteins and confirmed expression of each. We demonstrated the utility of these vectors in a variety of functional studies. First, we show that the FKBP12 Destabilization Domain system can be used to either express or deplete the protein of interest in mitotically-arrested cells. Also, we generate primary fibroblasts that can be induced to senesce in the presence or absence of DNA damage. Finally, we determined that both isoforms of the AT-Rich Interacting Domain 4B (ARID4B) protein could induce G1 arrest when overexpressed. As new technologies emerge, the vectors in this collection can be easily modified and adapted without the need for extensive recloning.     

重组人血清白蛋白-干扰素α2b融合蛋白在PichiaPink系统中的表达

目的:比较PichiaPink表达系统和巴斯德毕赤酵母GS115在表达外源蛋白方面的差异,对PichiaPink表达系统的潜在优点进行评价。方法:以重组人血清白蛋白-干扰素α2b融合蛋白(HSA-IFN-α2b)为报告蛋白,构建相关载体,分别转化PichiaPink系统菌株和巴斯德毕赤酵母GS115菌株,诱导HSA-IFN-α2b表达并测定表达水平;通过SDS-PAGE检测HSA-IFN-α2b在PichiaPink系统中的降解程度。结果:PichiaPink系统几乎所有的转化子都可以表达HSA-IFN-α2b,而GS115菌株只有60%的转化子能表达HSA-IFN-α2b;同一种Pink菌株中,整合有高拷贝数表达载体pPink-HC的菌株表达量高于整合有低拷贝数表达载体pPink-LC的菌株;Pink蛋白酶缺陷菌株在复杂培养基(YPD,BMMY)中HSA-IFN-α2b基本没有降解,而在合成培养基(BSM)中降解现象明显。结论:PichiaPink表达系统产生的转化子较GS115菌株产生的转化子易于筛选;PichiaPink系统蛋白酶缺陷菌株可明显减少外源蛋白降解。这些结果为利用PichiaPink表达系统高水平和大规模制备外源蛋白提供了实验依据。     

Generation of recombinant CHO(dhfr-) cell lines by single selection for dhfr+ transformants.

In order to establish a mammalian cell expression system with a minimum of selection steps and a stable expression of microgram amounts of recombinant protein (human tissue-type plasminogen activator mutants and chimeric proteins) per 10(6) cells per day, we investigated Chinese hamster ovary cells and the dihydrofolate reductase-deficient Chinese hamster ovary cell line CHO(dhfr-). The 1tPA expression vector pCMVtPA was cotransfected either with the SV40 enhancer sequence containing dhfr expression vector pMT2 or with the enhancerless dhfr expression vector pAdD26SV(A) into CHO(dhfr-) cells. With both dhfr expression plasmids, selection for dhfr+ transformants followed by single dilution cloning was sufficient to generate cell lines with a production level of up to 4.6 micrograms tPA/10(6) cells.day. This approach is useful if gene amplification procedures are time-consuming and impracticable because of a large number of recombinant proteins. In order to establish CHO cell lines with a tPA expression level as high as that in the case of CHO(dhfr-) cells, repeated dilution cloning is necessary.