Transformation of DNA repair-deficient human diploid fibroblasts with a simian virus 40 plasmid

Fibroblasts from patients with xeroderma pigmentosum (XP) complementation groups A, C, D, E, and G, as well as Bloom syndrome (BS) and Fanconi anemia (FA) have been transfected with a plasmid, pSV7, containing the early region of Simian virus 40 (SV40). All of the cultures exhibited cytologic changes characteristic of transformed cells and expressed T-antigen. They also contained integrated copies of DNA derived from the vector, and in several cases, extrachromosomally replicated DNA. Not all of the transfected cultures became immortalized. The transformed xeroderma pigmentosum (XP) cultures retained their UV-sensitive phenotype in all but one case. The BS and FA cell lines retained their characteristic phenotype. All of the cultures, except the BS cells, can be readily transfected with the plasmids, pSV2neo and pSV2gpt.     

Spontaneous chromosomal aberrations in Fanconi anaemia,ataxia telangiectasia fibroblast and Bloom's syndrome lymphoblastoid cell lines as detected by conventional cytogenetic analysis and fluorescence in situ hybridisation (FISH) technique

Several primary and transformed human cell lines derived from cancer prone patients are employed routinely for biochemical and DNA repair studies. Since transformation leads to some chromosomal instability a cytogenetic analysis of spontaneous chromosome aberrations in fibroblast cell lines derived from patients with Fanconi anaemia (FA), ataxia telangiectasia (AT), and in lymphoblastoid cell lines derived from patients with Bloom's syndrome (BS), was undertaken. Unstable aberrations were analysed in Giemsa stained preparations and the chromosome painting technique was used for evaluating the frequencies of stable aberrations (translocations). In addition, the frequency of sister-chromatid exchanges (SCEs) was determined in differentially stained metaphases. The SV40-transformed fibroblasts from these cell lines have higher frequencies of unstable aberrations than the primary fibroblasts. In the four lymphoblastoid cell lines derived from BS patients higher frequencies of spontaneously occurring chromosomal aberrations in comparison to normal TK6wt cells were also evident. The frequency of spontaneously occurring chromosome translocations was determined with fluorescence in situ hybridisation (FISH) and using DNA libraries specific for chromosomes 1, 2, 3, 4, 7, 8, 11, 14, 19, 20 and X. The translocation levels were found to be elevated for primary FA fibroblasts and lymphoblastoid cells derived from BS patients in comparison with control cell lines, hetero- and homozygote BS cell lines not differing in this respect. The SV40-transformed cell lines showed very high frequencies of translocations independent of their origin and almost every cell contained at least one translocation. In addition, clonal translocations were found in transformed control TK6wt and AT cell lines for chromosomes 20 and 14, respectively. The spontaneous frequencies of SCEs were similar in transformed fibroblasts derived from normal individuals and AT patients, whereas in SV40-transformed FA cells these were higher (4-fold). Among cell lines derived from BS patients, heterozygote lines behaved like control, whereas in homozygote cell lines very high frequencies of SCEs (about 12-fold) were evident.     

Viral and cellular oncogene expression during progressive malignant transformation of SV40 transformed human fibroblasts.

In vitro investigation of the multistep neoplastic progression which occurs during transformation of human cells has been hindered by resistance of human cells to both immortalization and tumorigenicity (Mut. Res. 199; 273, 1988). Previously our laboratory established a cell line, HSF4-T12, by transfection of normal human foreskin fibroblasts with the plasmid pSV3-neo which contains the early genes of simian virus 40 (SV40). A multistep progression in karyotypic alterations and transformed phenotype occurred resulting in a neoplastic cell line that was immortal, transformed, and tumorigenic. We have examined changes in the SV40 proteins, large T (T-antigen) and small t (t-antigen) antigens, and in the cellular protein, p53, during progressive transformation of these cells. Total viral protein expression relative to total cellular protein increased following immortalization of HSF4-T12 as did the ratio of T-antigen to t-antigen. Interestingly, no significant change in DNA content accompanied immortalization. However, during the progressive in vitro transformation of HSF4-T12 which occurred primarily post-immortalization, DNA index increased to 1.6 but only small additional increases in T-antigen expression were seen. No consistent or critical role for t-antigen in development of the tumorigenic phenotype was found in this system.     

An immortalized xeroderma pigmentosum, group C, cell line which replicates SV40 shuttle vectors

We have established and characterized an immortalized xeroderma pigmentosum (XP), group C, cell line. Transformation of the human fibroblasts was carried out with a recombinant plasmid, pLAS-wt, containing SV40 DNA encompassing the entire early region with a defective origin of DNA replication. The transformed XP cell line, XP4PA-SVwt, and the normal transformed fibroblasts AS3-SVwt, both express SV40 T antigen together with enhanced levels of the transformation-associated cellular protein, p53. XP4PA-SVwt retains the XP UV-repair defective phenotype as demonstrated by low levels of unscheduled DNA synthesis and by the reduced survival of irradiated SV40 virus. Analysis of cellular DNA shows a single major, stable, integration site of pLAS-wt in the XP4PA-SVwt cells. The T antigen in these cells supports efficiently the replication of SV40 based shuttle vectors and should prove suitable for the introduction, expression and selection of genes related to DNA repair and to the study of mutagenesis using defined molecular probes.     

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.     

The susceptibility of Werner's syndrome and other human skin fibroblasts to SV40-induced transformation and immortalization

In attempts to transform and immortalize human cell cultures, skin fibroblasts from normal donors of different ages, from patients with the premature ageing diseases Werner's syndrome (WS) and progeria (PR), and from donors with the cancer-prone diseases ataxia telangiectasia (AT), Bloom's syndrome (BS) and Fanconi's anaemia (FA), were infected with SV40 virus and their growth monitored thereafter. Lesch-Nyhan (LN) fibroblasts were also infected. SV40-infected cultures from two normal and from WS, AT and LN donors attained a spectrum of transformed properties, high mitotic activity at confluence, presence of T-antigen, anchorage independence and altered morphology. Most of these pretransformed cultures died in the crisis period. However, two cultures from the WS and LN patients survived the crisis period and have now been grown to more than 200 passages. For the LN culture the crisis period was at least 200 days. Both permanent lines retain the properties of pretransformed cells, but differ in their modal chromosome number and ability to grow in methionine-free medium. It can be concluded from these experiments that transformation by SV40 to permanent lines is a rare event in human skin fibroblasts, even when these cells were taken from patients predisposed to form cancers.     

Transformation of human cultured fibroblasts with plasmids carrying dominant selection markers and immortalizing potential

The disadvantages of using human cultured cells for biochemical and genetic studies are their limited lifespan in vitro and their lack of chemical selection markers. These problems are now overcome by transfecting human cultured fibroblasts with the pSV3-gpt and pSV3-neo plasmid DNA which carry genes coding for the immortalizing SV40 large T-antigen and dominant selection markers. Transformed human fibroblasts were obtained at a frequency of about 10(-5) with both selection systems. These transformed cells showed a twofold increase in growth rate and three to tenfold increase in cell number at confluence. The improved growth characteristics were associated with the expression of the SV40 T-antigen detected with immunoprecipitation. These cell lines also changed from their usual spindle shapes to an epithelioid morphology characteristic of transformed cells. From 60 to 100% of the cells transfected with pSV3 plasmid DNA demonstrated numerical and structural abnormalities in their karyotypes. Cells transfected with DNA from a similar plasmid, pSV2-neo, which differed from the pSV3-neo plasmid only by missing the sequence encoding the complete early region of SV40, neither expressed T-antigen nor showed any change in morphology, improvement in growth characteristics or abnormalities in karyotype. However, they were still selectable with the aminoglycoside G-418. Therefore, by appropriate choice of vector plasmids, dominant selection markers and improved growth characteristics can be imparted separately or simultaneously to human fibroblasts. The morphological, biochemical and chromosomal changes resulting from such transformations must be recognized in using this approach for biochemical and genetic studies.     

Isolation of a simian virus 40 T-antigen-positive, transformation-resistant cell line by indirect selection.

In an attempt to identify cellular genes that might be involved in simian virus 40 (SV40) transformation, we have set out to isolate cells which express T antigen but are not transformed. SV40 DNA and the herpes simplex virus thymidine kinase gene were cotransfected into tk- 3T3 fibroblasts. Of 72 colonies screened that were resistant to hypoxanthine-aminopterin-thymidine, 57 were T antigen positive as judged by immunofluorescence. One of these lines, A27, had a normal growth phenotype in monolayer overgrowth and soft agar assays. It contained intact SV40 sequences that could be rescued by fusion to permissive cells. This rescued virus was fully capable of transforming nonpermissive cells to the same extent as did wild-type virus. The A27 cells, however, were not transformable by infection with SV40 or by transfection of SV40 DNA. It is likely that these cells were altered in a cellular function required for the establishment of the transformed state.     

Transformation of human epidermal cells by transfection with plasmid containing simian virus 40 DNA linked to a neomycin gene in a defined medium

A human epidermal cell culture was transformed by transfection with a recombinant plasmid containing simian virus 40 DNA with a deletion at the origin and an antibiotic (neomycin or G418) marker. A calcium phosphate-mediated DNA transfection method was optimized for introducing exogenous DNA into cells maintained in a fully defined medium. The transformed cells were propagated for more than 200 population doublings and did not appear to go through a "crisis" period. The growth characteristics of the transformed cells were similar to those of untransformed cells. Major keratins synthesized in the transformed cells were similar to those found in normal epidermal cells. Transformed cells initially transfected with the recombinant plasmid could be propagated for more than 30 passages. Actively growing cells could then be repeatedly selected from cell populations based upon their neomycin (G418)-resistant phenotype for at least another 30 passages. Simian virus 40 T-antigen and extrachromosomal DNA containing plasmid- and SV40-specific DNA sequences were detected in the transformed cells. Because of their nononcogenic phenotype and defined growth requirements, the transformed cells provide a model for examining structural changes during cell proliferation and differentiation, and for exploring the multistage carcinogenesis of human epithelial cells.     

Abnormal processing of transfected plasmid DNA in cells from patients with ataxia telangiectasia.

In order to assess spontaneous mutability and accuracy of DNA joining in ataxia telangiectasia, a disorder with spontaneous chromosome breakage, the replicating shuttle vector plasmid, pZ189, was transfected into SV40 virus-transformed fibroblasts from ataxia telangiectasia patients. The ataxia telangiectasia fibroblasts showed elevated frequency of micronuclei, a measure of chromosome breakage. The spontaneous mutation frequency was normal with circular plasmids passed through the ataxia telangiectasia line. These results were compared to those with transformed fibroblasts from a patient with xeroderma pigmentosum, and from a normal donor. Mutation analysis revealed spontaneous point mutations and deletions in the plasmids with all 3 cell lines, however, insertions or complex mutations were only detectable with the ataxia telangiectasia line. To assess DNA-joining ability, linear plasmids which require joining of the DNA ends by host cell enzymes for survival, were transfected into the cells. We found a 2.4-fold less efficient DNA joining in ataxia telangiectasia fibroblasts (p = 0.04) and a 2.0-fold higher mutation frequency (p less than 0.01) in the recircularized plasmids than with the normal line. Plasmid DNA joining and mutation frequency were normal with the xeroderma pigmentosum fibroblasts. These findings with the ataxia telangiectasia fibroblasts of abnormal types of spontaneous mutations in the transfected plasmid and inefficient, error-prone DNA joining may be related to the increased chromosome breakage in these cells. In contrast, an EB virus-transformed ataxia telangiectasia lymphoblast line with normal frequency of micronuclei showed normal types of spontaneous mutations in the transfected plasmid and normal frequency of DNA joining which was error-prone. These data indicate that mechanisms that produce chromosome breakage in ataxia telangiectasia cells can be reflected in processing of plasmid vectors.     

Sensitivity of simian virus 40-transformed C57BL/6 mouse embryo fibroblasts to lysis by murine natural killer cells

The susceptibility of mouse cells expressing full-length or truncated transforming protein (T antigen) of simian virus 40 (SV40) to lysis by murine natural killer (NK) cells was assessed. For these studies, C57BL/6 mouse embryo fibroblasts (B6/MEF) were transformed by transfection with SV40 DNA encoding the entire T antigen. The transformed cell lines were tested for susceptibility to lysis by nonimmune CBA splenocytes as a source of NK cells and to lysis by C57BL/6, SV40-specific cytolytic T cells (CTL). It was found that 13 of 15 clonally derived, SV40-transformed H-2b cell lines were susceptible to lysis by NK cells. However, there was some variation in their susceptibility to lysis by NK cells. There was no correlation between susceptibility to lysis by SV40-specific CTL and to lysis by NK cells. Cells transfected with a plasmid which encodes only the N-terminal half of the SV40 T antigen were consistently less susceptible to lysis by NK cells, suggesting that expression of only the N-terminus of the T antigen was insufficient for optimal susceptibility to lysis by NK cells. Primary mouse embryo fibroblasts transformed by human adenovirus type 5 E1 region DNA were also found to be susceptible to NK cell-mediated lysis. Lysis of SV40-transformed cells by nonimmune CBA splenocytes was mediated by NK cells because: lysis was augmented when the effector cells were treated with interferon before assay; and lysis was abrogated when the effector cells were obtained from mice that had been depleted of NK activity by treatment with antiserum against the asialo GM1 surface marker. These results indicate that primary mouse cells which are transformed by SV40 and which express the native T antigen are susceptible to lysis by mouse NK cells. Conversely, cells transformed by a plasmid encoding only the N-terminal half of the T antigen express reduced susceptibility to lysis by NK cells.     

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.     

SV40 T-antigen is required for maintenance of immortal growth in SV40-transformed human fibroblasts.

Two lines of immortal human fibroblasts were isolated following transfection of TIG-3 cells with plasmid DNA, pMT-1ODtsA, that contained SV40 early gene with a deletion in replication origin and ts mutation in coding sequence for T-antigen. These cells continued proliferation at 34 degrees C, over 565 population doubling level (PDL) which is far over the limited division potential of untransformed normal TIG-3 of 70-80 PDL. When the culture temperature was shifted to 40 degrees C after 70 PDL, they ceased proliferation immediately. One of these immortal clones, SVts8, lost its ts phenotype after retransformation with wtT-antigen gene. These results indicated that the function of intact T-antigen is required for maintenance of immortal proliferation, at least in one of the SV40 transformed immortal clones.     

Efficient transformation of human fibroblasts by adenovirus-simian virus 40 recombinants.

The origin-defective simian virus 40 (SV40) mutant 6-1 has been useful in transforming human cells (Small et al., Nature [London] 296:671-672, 1982; Nagata et al., Nature [London] 306:597-599, 1983). However, the low efficiency of transformation achieved by DNA transfection is a major drawback of the system. To increase the efficiency of SV40-induced transformation of human fibroblasts, we used recombinant adenovirus-SV40 virions which contain a complete SV40 early region including either a wild-type or defective (6-1) origin of replication. The SV40 DNA was cloned into the adenovirus vector in place of early region 1. Cell lines transformed by viruses containing a functional origin of replication produced free SV40 DNA. These cell lines were subcloned, and some of the subclones lost the ability to produce free viral DNA. Subclones that failed to produce free viral DNA were found to possess a mutated T antigen. Cell lines transformed by viruses containing origin-defective SV40 mutants did not produce any free DNA. Because of the high efficiency of transformation, we suggest that the origin-defective chimeric virus is a convenient system for establishing SV40-transformed cell lines from any human cell type that is susceptible to infection by adenovirus type 5.     

Instability of extrachromosomal cosmid DNA in SV40-transformed human (ataxia-telangiectasia) cells

The ability of SV40-transformed human (ataxia-telangiectasia) fibroblasts to maintain Epstein-Barr virus (EBV)-based plasmids and cosmids extrachromosomally has been investigated. Transfection of a culture of cells with two different plasmids gave rise to cell clones which were able to maintain both plasmids extrachromosomally. When an EBV-based cosmid library was transfected into the cells and an individual cell clone was isolated, the extrachromosomal DNA derived from the cosmid contained numerous deletions and rearrangements. When individual cosmids were transfected into the culture, and several cell clones were isolated, the intracellular cosmid-derived DNA again showed the presence of multiple deletions and rearrangements. We conclude that although SV40-transformed cells are able to maintain more than one different EBV-based plasmid extrachromosomally, large EBV-derived molecules are extensively rearranged. SV40-transformed human fibroblasts cannot therefore be usefully used in attempting to clone genes from EBV-based cosmid libraries.     

Establishment and characterization of a permanent pSV ori--transformed ataxia-telangiectasia cell line

A permanent ataxia-telangiectasia (A-T) cell line has been established from the fibroblast strain AT2SF after transfection with the bacterial plasmid pSV ori-, which contains replication origin-defective SV40 sequences. The original transfection frequency, as measured by transformed foci, was markedly reduced in two A-T strains when compared with either normal or xeroderma pigmentosum fibroblasts. As with SV40 virion-transformed fibroblasts, pSV ori--transformed cells entered a crisis phase, from which about one-fourth of the original clones from A-T and normal fibroblasts recovered. Both the pSV ori--transformed TAT2SF cell line and an SV40 virion-transformed AT5BI (GM5489) cell line retained their characteristic sensitivity to the lethal effects of ionizing radiation, as well as their X ray-resistant DNA synthesis. Southern blot analysis of cellular SV40 sequences demonstrated a single major integration site of pSV ori- in the AT2SF cells. In contrast, AT5BI cells transformed with SV40 virions demonstrated a high degree of heterogeneity of integrated viral sequences. Neither the TAT2SF nor the GM5489 transformed cell line contains any detectable freely replicating SV40 viral sequences, which are seen in many other semipermissive SV40-transformed cells.     

Stabilization of the tumor suppressor p53 during cellular transformation by simian virus 40: influence of viral and cellular factors and biological consequences.

To understand the process and biological significance of metabolic stabilization of p53 during simian virus 40 (SV40)-induced cellular transformation, we analyzed cellular and viral parameters involved in this process. We demonstrate that neither large T expression as such nor the cellular phenotype (normal versus transformed) markedly influence the stability of p53 complexed to large T in SV40 abortively infected BALB/c mouse fibroblasts. In contrast, metabolic stabilization of p53 is an active cellular event, specifically induced by SV40. The ability of SV40 to induce a cellular response leading to stabilization of p53 complexed to large T is independent from the cellular phenotype and greatly varies between different cells. However, metabolic stability was conferred only to p53 in complex with large T, whereas the free p53 in these cells remained metabolically unstable. Comparative analyses of cellular transformation in various cells differing in stability of p53 complexed to large T upon abortive infection with SV40 revealed a strong correlation between the ability of SV40 to induce metabolic stabilization and its transformation efficiency. Our data suggest that metabolic stabilization and the ensuing enhanced levels of p53 are important for initiation and/or maintenance of SV40 transformation.     

Induction of Duplication Reversion in Human Fibroblasts, by Wild-Type and Mutated Sv40 T Antigen, Covaries with the Ability to Induce Host DNA Synthesis

Intrachromosomal homologous recombination, manifest as reversion of a 14-kbp duplication in the hypoxanthine phosphoribosyl transferase (HPRT) gene, is elevated in human cells either stably transformed or transiently transfected by the SV40 (simian virus 40) large T antigen gene. Following introduction of wild-type SV40, or any of several T-antigen point mutations in a constant SV40 background, we observed a strong correlation between the stimulation of chromosomal recombination and induction of host-cell DNA synthesis. Moreover, inhibitors of DNA replication (aphidicolin and hydroxyurea) suppress SV40-induced homologous recombination to the extent that they suppress DNA synthesis. Stable integration of plasmids encoding T antigen also augments homologous recombination, which is suppressed by aphidicolin. We infer that the mechanism by which T antigen stimulates homologous recombination in human fibroblasts involves DNA replicative synthesis.     

"Transformation" of human endothelial cells by SV40 virions

Human endothelial cells derived from the umbilical vein were transformed with SV40 virions. A cell line subcultured for over 60 serial passages was characterized in comparison with its untransformed counterpart which was culturable for less than five passages. The SV40-transformed human endothelial cells, designated SV-HUVEC, were positive not only for tumor (T) antigen specific to the SV40-transformed cell, but also for two markers of endothelial cells, Factor VIII-related antigen and a receptor for Ulex europaeus agglutinin I. By transformation the growth potential of the human endothelial cells was increased and their serum requirement was decreased. The SV40-transformed endothelial cells were, however, unable to form colonies in soft agar or to form tumors in athymic nude mice, although a small nodule was produced at the site of inoculation. Subcultivation of these cells up to the 62nd passage eventually resulted in crisis and loss of further cell division. Thus, the human endothelial cells were transformed by SV40 while retaining certain normal functions but without showing tumorigenicity.