Vectors bicistronically linking a gene of interest to the SV40 large T antigen in combination with the SV40 origin of replication enhance transient protein expression and luciferase reporter activity

The simian virus 40 large T antigen (SVLT) induces replication of plasmids bearing the SV40 origin of replication (SV40 ori) within mammalian cells. The internal ribosomal entry site (IRES) is an element that allows for the cotranslation of proteins from one polycistronic mRNA. Through the combination of these elements, IRES-dependent coexpression of a protein of interest and the SVLT, either constitutive or regulated, on plasmids bearing the SV40 ori generates a positive feedback loop, resulting in enhanced expression. A vector linking red fluorescent protein (RFP) to the IRES-SVLT element enhances fluorescence ~10-fold over that demonstrated from a vector lacking this element. In transfection-resistant CV-1 cells, the RFP-IRES-SVLT vector substantially increases the number of cells expressing detectable levels of RFP. Furthermore, inclusion of the IRES-SVLT/SV40 ori elements in standard luciferase-based reporter gene constructs and associated effectors results in marked increases in luminescent output and sensitivity, using the β-catenin/TCF pathway and the mammalian two-hybrid assay as models. Ultimately, vector systems combining these well-established elements (IRES-SVLT/SV40 ori) will increase the utility of transient transfection for the production of recombinant proteins, the use of transfection-resistant cell lines, and the effectiveness of luciferase-based high-throughput screening assays.     

Simian virus 40 (SV40) T-antigen mutations in tumorigenic transformation of SV40-immortalized human uroepithelial cells.

pSV2Neo, a plasmid that contains the wild-type simian virus 40 (SV40) origin of replication (ori), is widely used in mammalian cell transfection experiments. We observed that pSV2Neo transforms two nontumorigenic SV40-immortalized human uroepithelial cell lines (SV-HUC and CK/SV-HUC2) to G418 resistance (G418r) at a frequency lower than that at which it transforms SV-HUC tumorigenic derivatives (T-SV-HUC). Transient expression studies with the chloramphenicol transferase assay showed that these differences could not be explained by differences in Neo gene expression. However, when we replaced the SV40 ori in pSV2Neo with a replication-defective ori to generate G13.1Neo and G13.1'Neo, the G418r transformation frequency of the SV40-immortalized cell lines was elevated. Because SV40 T antigen stimulates replication at its ori, we tested plasmid replication in these transfected cell lines. The immortalized cell lines that showed low G418r transformation frequencies after transfection with pSV2Neo showed high levels of plasmid replication, while the T-SV-HUC that showed high G418r transformation frequencies failed to replicate pSV2Neo. To determine whether differences in the status of the T-antigen gene contributed to the phenomenon, we characterized the T-antigen gene in these cell lines. The results showed that the T-SV-HUC had sustained mutations in the T-antigen gene that would interfere with the ability of the T antigen to stimulate replication at its ori. Most T-SV-HUC contained a super-T-antigen replication-defective ori that apparently resulted from the partial duplication of SV40 early genes, but one T-SV-HUC had a point mutation in the ori DNA-binding domain of the T-antigen gene. These results correlate with the high G418r transformation frequencies with pSV2Neo in T-SV-HUC compared with SV-HUC and CK/SV-HUC2. Furthermore, these results suggest that alterations in SV40 T antigen may be important in stabilizing human cells immortalized by SV40 genes that contain the wild-type SV40 ori, thus contributing to tumorigenic transformation. This is the first report of a super T antigen occurring in human SV40-transformed cells.     

The role of plasmid constructs containing the SV40 DNA nuclear-targeting sequence in cationic lipid-mediated DNA delivery

One of the steps that limit transfection efficiency in non-viral gene delivery is inefficient nuclear import of plasmid DNA, once it has been delivered into the cytoplasm. Recently, via microinjection into the cytoplasm and in situ hybridizations into a few cell types, it was shown that a region of Simian virus 40(SV40), specifically a c. 372-bp fragment of SV40 genomic DNA encompassing the SV40 promoter-enhancer-origin of replication (SV40 DTS), could enable the nuclear import of a plasmid carrying these sequences (Dean D.A. Exp. Cell Res. 230 (1997) 293). In this report, we address the issue of the suitability of the SV40 DTS for cationic lipid-mediated gene delivery, and its capacity to improve the efficiency of the transfection process. For this study, we used transient reporter gene expression assays on various cell types. The gene expression from the plasmid constructs carrying the SV40 DTS varied with cell type and plasmid construct used. Such cell-type and plasmid-construct dependency on gene expression from plasmids containing the SV40 DTS suggests that the gene expression from plasmids is not entirely dependent on its ability to enhance the nuclear import of said plasmids.     

Regulation of gene amplification and expression in cells that constitutively express a temperature sensitive SV40 T-antigen.

Simian cells have been transformed with SV40 origin-defective recombinant plasmids containing the tsA209 T-antigen gene. These plasmids contain deletions of either 5 or 52 nucleotides that include the BglI site at the SV40 ori, are defective for replication in COS-1 cells but retain a functional SV40 early promoter. Two cell lines transformed with these plasmids, U4 and S7, and their respective clonal derivatives E5 and F11, contain the tsA209 T-antigen gene integrated into the cell DNA and express T-antigen as detected by immunoprecipitation and immunofluorescence. These cells behave as ts-COS cells, since they complement in a temperature dependent manner the replication of an SV40 derived recombinant plasmid. When transfected with recombinant plasmids containing the chloramphenicol acetyl transferase (CAT) gene cloned into SV40 replicons, ts-COS cells were able to regulate the induction of the CAT activity by temperature. The ratios of CAT activity observed at permissive versus restrictive temperature were in the range of 20-400. Thus, these ts-COS cells are useful systems for the regulated expression of cloned genes in simian cells.     

c-myc protein can be substituted for SV40 T antigen in SV40 DNA replication.

Replicating activity of SV40 origin-containing plasmid was tested in human cells as well as in monkey CosI cells. All the plasmids possessing SV40 ori sequences could replicate, even in the absence of SV40 T antigen, in human HL-60 and Raji cells which are expressing c-myc gene at high level. The copy numbers of the replicated plasmids in these human cells were 1/100 as high as in monkey CosI cells which express SV40 T antigen constitutively. Exactly the same plasmids as the transfected original ones were recovered from the Hirt supernatant of the transfected HL-60 cells. Furthermore, replication of the SV40 ori-containing plasmids in HL-60 cells was inhibited by anti-c-myc antibody co-transfected into the cells. These results indicate that the c-myc protein can be substituted for SV40 T antigen in SV40 DNA replication.     

High efficiency of replication and expression of foreign genes in SV40-transformed human fibroblasts.

Human fibroblasts (HF) were transformed in vitro with origin-defective SV40 DNA (ori-) using the calcium phosphate co-precipitation technique. The SV40 ori- transformed human cells (HSF) were able to replicate efficiently a recombinant DNA molecule containing the ori sequence of SV40 DNA. Transfection of HFS with pTBC1, a recombinant pi vx plasmid containing the herpes simplex virus thymidine kinase (HSV-TK) gene and the ori SV40 sequences, results in high levels of TK mRNA of correct size. The pTBC1 plasmid does not appear to contain 'poison' sequences and can be efficiently re-established in Escherichia coli after replication in human cells. This host vector system may be of great usefulness in studying the expression of human genes in human cells.     

The induction of growth arrest in fibroblasts by SV40 T antigen

DNA tumor viruses such as SV40, Ras and papillomaviruses are the most commonly used agents in immortalization of non-hematopoietic cells, but the results are quite different. Some of them even lead instead to a senescence-like state. To verify the potential of SV40 T antigen-mediated immortalization or properties and functions of it to regulate cell growth, human dermal fibroblasts were cultured and then transfected with eukaryotic expressing plasmid psv3-neo which containing SV40 T DNA. We found that expression of oncogenic SV40 T in human dermal fibroblasts resulted in growth, arrest, earlier than the occurrence of control cell senescence, although telomerase was positive and cells grew faster than control ones in early stage following transfection. These observations suggest that SV40 T antigen can activate growth arrest in human dermal fibroblasts under normal growth condition instead of always prolonging the lifespan of fibroblasts. Moreover, high rate of cell division in early stage after transfection may be associated with the expression of telomerase activity.     

Helpers for efficient encapsidation of SV40 pseudovirions

Plasmid DNA that carries the simian virus 40 (SV40) ori can be packaged as SV40 pseudovirions. The pseudovirions are very efficient in gene transmission into a variety of cell types, including human hemopoietic cells. They are routinely prepared with wild-type (wt) SV40 as a helper. In the present study, several parameters required for the helper function were investigated. Plasmids that carry pBR322 sequences in addition to the late genes of SV40 were inefficient in providing helper functions, presumably because the prokaryotic sequences interfered with expression of the SV40 late genes. Efficient helpers were plasmid pSVPiC [Villarreal and Soo, Mol. Appl. Genet. 3 (1985) 62-71] and an SV40 defective virus SLT3 (presently constructed). Plasmid pSVPiC carries a duplication of the SV40 ori and enhancer regions, and pi AN7 sequences. Because of its large size it was not packaged into virion particles. However, it underwent extensive recombination generating infective SV40 particles. Almost no prokaryotic sequences are included in SLT3, that carries the SV40 late gene. In spite of its small size (3.5 kb) it was packaged efficiently, creating defective (T-antigen-negative) SV40 virions. The availability of T-antigen positive and negative pseudovirion mixtures enabled us to suggest that T-antigen drives gene amplification in the target human hemopoietic cells.     

The SV40 72 base repair repeat has a striking effect on gene expression both in SV40 and other chimeric recombinants.

By introduction of recombinant plasmids into monkey CV1 cells, we have unambiguously demonstrated that sequences entirely within the 72 bp repeat, which is located upstream of the SV40 early region, are crucial for T-antigen expression in vivo. We have also shown that a DNA fragment containing the 72 bp repeat, inserted directly before chicken conalbumin or adenovirus-2 major late promoter sequences in chimeric plasmids where these promoters replace that of the SV40 early genes, caused a dramatic increase in the expression of T-antigen in vivo. This effect was independent of the orientation of the 72 bp repeat, but was sensitive to its location within the plasmid, when the 72 bp repeat was separated from the promoter sequences, T-antigen expression was reduced. Insertion of the 72 bp repeat into equivalent plasmids containing no known eukaryotic promoter sequences (plasmids which were not detectably expressed in vivo) gave rise to a measurable, but smaller level of expression. The stimulation of expression by the 72 bp repeat is cis-acting : it required covalent linkage to the recombinant. We discuss the possibility that the 72 bp repeat region in SV40 may act as a bi-directional entry site for RNA polymerase B such that promoter sequences linked to the repeat are more efficiently utilised.     

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.     

Analysis of mutations occurring during replication of a SV40 shuttle vector in mammalian cells

To analyse mutations that arise in mammalian cells we have used a SV40::plasmid shuttle vector containing a portion of the E. coli lacZ gene. We have found that following transfection into monkey Cos-7 cell mutations are not detected in the recovered plasmids at 24 h post transfection, but are found at 48 h post transfection, after the onset of DNA replication. Analysis of the mutant plasmids shows that in almost all cases the mutant phenotype is caused by a deletion or rearrangement of the lacZ gene in the shuttle vector.     

Transgenic mice harboring SV40 t-antigen genes develop characteristic brain tumors

A high percentage of transgenic mice developing from eggs microinjected with plasmids containing the SV40 early region genes and a metallothionein fusion gene develop tumors within the choroid plexus. A line of mice has been established in which nearly every affected animal succumbs to this brain tumor. Thymic hypertrophy and kidney pathology are also observed in some mice. SV40 T-antigen mRNA and protein are readily detected in affected tissues; however, SV40 T-antigen gene expression is barely detectable in unaffected tissues or in susceptible tissues prior to overt pathology, suggesting that tumorigenesis depends upon activation of the SV40 genes. Comparison of DNA from tumor tissue (or cell lines derived from tumors) with DNA from unaffected tissues reveals structural rearrangements as well as changes in DNA methylation of the foreign DNA. The SV40 genes are frequently amplified in tumor tissue, which further indicates that their expression is intimately involved in tumorigenesis in transgenic mice.     

Rescue of SV40 following transfection of TC7 cells with cellular DNAs containing complete and partial SV40 genomes

Summary Infectious SV40 virions could be rescued from permissive TC7 cells within one to three subcultures following cotransfection with two cellular DNAs, each containing a complementary portion of the SV40 genome. SV40 virions could also be rescued by transfection of TC7 cells with cellular DNAs from a variety of SV40 transformed cells containing complete genome equivalents but not from cells containing subgenomes alone or defective genomes. Infectious virus was not rescued if the transfecting DNA species was treated with DNAase or if the DEAE-dextran pretreatment of the recipient cells was omitted.deceased     

Vector methylation inhibits transcription from the SV40 early promoter.

Methylation of a plasmid containing the SV40 promoter linked to the chloramphenicol acetyl transferase (CAT) gene, with either murine DNA methylase or methylase SssI results in inhibition of the expression of the reporter gene after transfection into cultured cells. Methylation of the plasmid with the methylases HhaI and HpaII has no effect on the expression of this gene. Protein-DNA interactions in the SV40 promoter are not affected by the presence of methylcytosine suggesting that inactivation results from the formation of an inactive chromatin structure that is dependent on the high CG content of the plasmid.