Establishment of tsA58 transgenic rats as a source of conditionally immortalized cell lines with differentiated functions.

To isolate a variety of rat cell lines with differentiated functions, we developed transgenic rat lines that ubiquitously express the temperature-sensitive large T-antigen gene of the simian virus 40 (SV40) tsA58 mutant under the control of the SV40 large T-antigen promoter. These rats might be advantageous for simultaneously establishing cell lines from different tissues of rats with the same genetic origin. The transgenic rat lines transmit a functional copy of the transgene and were bred with sib mating to generate the homozygous transgene. The established cell lines from this transgenic rat had temperature dependent growth and retained some of the differentiated functions of each particular tissue, and were useful as a ready source of novel conditionally immortalized cell lines. The possible use and perspectives of these transgenic cell lines are discussed.     

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.     

The SV40 T-antigen induces premature apoptotic mammary gland involution during late pregnancy in transgenic mice

Transgenic animals of the line 8 contain the WAP-SV-T transgene. Females of this line synthesise the SV40 T-antigen in mammary gland epithelial cells during pregnancy and the lactation period. All females are ‘milk-less’ and the offspring have to be nursed by foster mothers. The reason for this phenomenon is a premature apoptosis during late pregnancy. Nonetheless a significant number of mammary epithelial cells escape apoptosis and all transgenic females develop breast cancer after the first lactation period.     

Ultrastructural and biological characterization of human choroid cell cultures transformed by Simian Virus 40

Summary A human diploid cell line of choroid origin was isolated from the retrouveal portion of an enucleated eye and designated HC. After 10 passages, when the proliferative capacity of HC cells decreased, they were infected and transformed by Simian Virus 40 (SV40). A proliferating long-term cultured cell line designated HC/SV40 was established and it has been maintained as monolayer for more than 100 passages so far. The two cell lines, HC and HC/SV40, were compared for growth characteristics, capacity to form colonies in soft agar, presence of nuclear T-antigen, and ultrastructure. Cytogenetic analysis was also performed to determine the presence of chromosomal aberrations due to the permanent viral transformation of the cell line. The results indicate that HC/SV40 should be considered the transformed counterparts of HC cells because they are morphologically similar to the latter but can grow in soft agar, possess T-antigen, and show a pattern of karyotypic changes similar to that induced by SV40 in human fibroblasts. The choroid origin of HC and HC/SV40 cell lines was confirmed by the presence, in their cytoplasm, of typical electron dense granules. Their neural origin will make these cell lines very useful for neuropharmacological and differentiation studies. This work was supported by Grant 82.00346.96 from the C.N.R. finalized project “Control of Neoplastic Growth”.     

Disrupted cerebellar cortical development and progressive degeneration of Purkinje cells in SV40 T antigen transgenic mice.

SV40 T antigen (Tag) expression directed to cerebellar Purkinje cells resulted in the generation of three transgenic mouse lines that displayed ataxia, a neurological phenotype characteristic of cerebellar dysfunction. Onset of symptoms and cerebellar pathology, characterized by specific Purkinje cell degeneration, appeared to be directly dependent upon transgene copy number. The SV5 line (containing > 30 transgene copies), exhibited embryonic transgene expression that caused selective death of immature Purkinje cells and a subsequent block in cerebellar development and ataxia at 2 weeks. The developmental effect of the disruption of Purkinje cells in SV5 mice suggests that a normal complement of these cells is required for early development of the cerebellar cortex, especially granule cell proliferation and migration from external to internal layers. Transgene expression in a second line, SV4 (10 copies), was detectable during the second postnatal week. Death of mature Purkinje cells in the SV4 line resulted in onset of ataxia at 9 weeks. Ataxia in a third line, SV6 (2 copies), was detected after 15 weeks. The distinct cerebellar phenotypes of the SV4-6 lines correlate with specific Tag-induced Purkinje cell ablation as opposed to tumorigenesis.     

SV40 T-antigen is a histocompatibility antigen of SV40-transgenic mice

Although the extensive family of non-H-2 histocompatibility (H) antigens provides a formidable barrier to transplantation, the origin of their encoding genes are unknown. Recent studies have demonstrated both the linkage between H genes and retroviral sequences and the ability of integrated Moloney-murine leukemia virus to encode what is operationally defined as a non-H-2 H antigen. The experiments described in this communication reveal that skin grafts from an SV40 T-antigen transgenic C57BL/6 mouse strain are rejected by coisogenic C57BL/6 recipients with a median survival time of 49 days, which is comparable to those of many previously defined non-H-2 H antigens. The specificity of this response for SV40 T-antigen was demonstrated by the identification of SV40 T-antigen-specific cytolytic T lymphocytes and antibodies in multiply-grafted recipients. Although these cytolytic T lymphocytes could detect SV40 T-antigen on syngeneic SV40-transformed fibroblasts, they neither could be stimulated by splenic lymphocytes from T-antigen transgenics nor could they lyse lymphoblast targets from T-antigen transgenics. These observations suggest a limited tissue distribution of SV40 T-antigen in these transgenics. These results confirm the role of viral genes in the determination of non-H-2 histocompatibility antigenes by the strict criteria that such antigenes stimulate (1) tissue graft rejection and (2) generation of cytolytic T lymphocytes. Furthermore, they suggest that the SV40 enhancer and promoter region can target expression of SV-40 T-antigen to skin cells of transgenic animals.     

Hepatocyte cell lines established from transgenic mice harboring temperature-sensitive simian virus 40 large T-antigen gene.

To establish cell lines exhibiting differentiation phenotypes, the immortalized cell lines were rapidly established from the primary culture of different tissues of transgenic mice harboring SV40 temperature-sensitive large T-antigen gene. The established cell lines grew at permissive temperature (33 degrees C), but not at nonpermissive temperature (39 degrees C). Several different cell types could be rapidly immortalized and cloned from the adult transgenic mice tissues. Among those cell lines, the established hepatocyte cell lines (TLR cell lines) exhibited liver-specific morphological and biochemical properties, but their properties were not coupled with the growth condition modified by temperature. The hepatocyte cell lines showed an inducibility of P450IA1 by 3-methylcholanthrene as observed in rat livers and this liver-specific function was stable even after 6 months of culture by continuous passages.     

Differential ability of a T-antigen transport-defective mutant of simian virus 40 to transform primary and established rodent cells.

The transforming potential and oncogenicity of a simian virus 40 (SV40) mutant affecting T-antigen (T-ag), SV40(cT)-3, was examined in an effort to dissect T-ag functions in transformation. SV40(cT)-3 has a point mutation at nucleotide 4434 that abolishes the transport of T-ag to the nucleus but does not affect its association with the cell surface. Transfection-transformation assays were performed with primary cells and established cell lines of mouse and rat origin. The efficiency of transformation for established cell lines by SV40(cT)-3 was comparable to that of wild-type SV40, indicating that transformation of established cell lines can occur in the absence of detectable amounts of nuclear T-ag. Transformation of primary mouse embryo fibroblasts by SV40(cT)-3 was markedly influenced by culture conditions; the relative transforming frequency was dramatically reduced in assays involving focus formation in low serum concentrations or anchorage-independent growth. Immunofluorescence tests revealed that the transformed mouse embryo fibroblasts partially transport the mutant cT-ag to the cell nucleus. Transformed cell lines induced by SV40(cT)-3 did not differ in growth properties from wild-type transformants. SV40(cT)-3 was completely defective for the transformation of primary baby rat kidney cells, a primary cell type unable to transport the mutant T-ag to the nucleus. The intracellular localization of cellular protein p53 was found to mimic T-ag distribution in all the transformants analyzed. The mutant virus was weakly oncogenic in vivo: the induction of tumors in newborn hamsters by SV40(cT)-3 was reduced in incidence and delayed in appearance in comparison to wild-type SV40. These observations suggest that cellular transformation is regulated by both nuclear and surface-associated forms of SV40 T-ag.     

Primary rat cells expressing a hybrid polyomavirus-simian virus 40 large T antigen have altered growth properties.

Expression of simian virus 40 (SV40) large T antigen efficiently immortalizes and transforms primary cells. We previously reported that a hybrid polyomavirus-SV40 large T antigen, PyT1-521-SVT336-708, binds to both p53 and pRb but does not transform an established rat cell line (J. J. Manfredi and C. Prives, J. Virol. 64:5250-5259, 1990). Here we show that this hybrid large T antigen is capable of immortalizing primary rat cells. Plasmids that express resistance to G418 sulfate and either SV40 large T antigen or PyT1-521-SVT336-708 were transfected into primary rat embryo fibroblasts, and cell lines were established. The cell lines that expressed PyT1-521-SVT336-708 were not fully transformed but did exhibit altered growth properties. Although these PyT1-521-SVT336-708-expressing lines did not form foci, they did grow in low serum and grew to a high saturation density; these cell lines also formed colonies in soft agar, but their colonies were much smaller than those seen with an SV40 large-T-antigen-expressing line. PyT1-521-SVT336-708 also demonstrated the ability to cooperate with activated Ha-ras to form foci on primary rat embryo fibroblasts. Surprisingly, two types of morphologies in such lines were observed: refractile and spindle shaped. Although there was no correlation between T-antigen level and morphology, all lines that displayed refractile morphology expressed high levels of p21ras. Since the p53 binding activity of PyT1-521-SVT336-708 appears to be intact, these results suggest that there are functions residing in the amino end of SV40 large T antigen which are necessary for full transformation that are missing from the amino end of polyomavirus large T antigen. Conversely, conferring the ability to bind to p53 on an amino-terminal fragment of polyomavirus large T antigen, although not enough to allow full transformation function, does increase its oncogenic activity in saturation density and soft agar growth assays.     

Tumorigenicity of revertants from an SV40-transformed line

A syndrome of in vitro properties correlates with the tumorigenicity of SV40-transformed rodent cells. These properties are plasminogen activator production, loss of large actin cables, and anchorage-independent growth. An established rat fibroblast line, its SV40 transformant, several T-antigen negative revertants, and a spontaneous retransformant isolated form one of the revertants were analyzed in vivo for their tumorigenicity and in vitro for the syndrome. The two transformed lines were highly tumorigenic, and had clearly abnormal in vitro properties. The parental rat line was weakly tumorigenic in nude mice and demonstrated a slightly transformed response in the in vitro assays. The revertants were completely nontumorigenic. Expression of the in vitro syndrome was not uniform for all revertants; however, most cell lines maintained the correlation of the syndrome and tumorigenicity.     

Immortalized differentiated hepatocyte lines derived from transgenic mice harboring SV40 T-antigen genes

Hepatocytes of transgenic mouse fetuses harboring SV40 virus transforming gene sequences in the SV delta e-MGH fusion gene construct 202 driven by the mouse metallothionein (MT-I) enhancer [R. D. Palmiter, H. Y. Chen, A. Messing, and R. L. Brinster (1985) Nature (London) 316, 457-460] were cultured at Day 19 of gestation and established as a differentiated line expressing albumin and alpha-fetoprotein (AFP) mRNAs. Hepatocyte line FMH-202 contains integrated SV40 sequences, expresses SV40 T-antigen genes, and exhibits unlimited growth potential because it has been cultured 18 months without apparent decrease in cell viability or in growth rate that could suggest the occurrence of a crisis period. Immortalized cells multiply in chemically defined medium deficient in arginine with transferrin plus insulin, whereas EGF, insulin, and transferrin are obligatory requirements for fetal or newborn mouse hepatocyte multiplication in primary cultures. Cells did not grow in agar and were not tumorigenic in nude mice. Their immortalized, nonmalignant phenotype was further documented by low saturation densities of confluent monolayers showing no overgrowth, and by growth arrest in the absence of insulin with subsequent induction of DNA synthesis and resumption of cell growth in response to insulin. Thus, it appears that immortalized SV40 T-antigen-expressing hepatocytes are present in the liver of the transgenic mice. However, at later points in liver development the transforming activity of T-antigen becomes apparent and leads to hepatocellular carcinoma formation in vivo.     

Establishment of a SV40-transformed cell line from primary culture of rat dorsolateral prostatic epithelial cells

A permanent cell line of the rat dorsolateral prostate epithelium was established after transformation of primary cultured cells with simian virus 40 (SV40). The established cells had SV40 T-antigen in their nuclei but lacked such typical characteristics of transformed cells as piled-up growth. They grew in a monolayer with an epithelial morphology, were stained with antikeratin antisera, and also retained an ability to form dome-like structure at a confluent state.     

Ultrastructural and biological characterization of human choroid cell cultures transformed by Simian Virus 40

A human diploid cell line of choroid origin was isolated from the retrouveal portion of an enucleated eye and designated HC. After 10 passages, when the proliferative capacity of HC cells decreased, they were infected and transformed by Simian Virus 40 (SV40). A proliferating long-term cultured cell line designated HC/SV40 was established and it has been maintained as monolayer for more than 100 passages so far. The two cell lines, HC and HC/SV40, were compared for growth characteristics, capacity to form colonies in soft agar, presence of nuclear T-antigen, and ultrastructure. Cytogenetic analysis was also performed to determine the presence of chromosomal aberrations due to the permanent viral transformation of the cell line. The results indicate that HC/SV40 should be considered the transformed counterparts of HC cells because they are morphologically similar to the latter but can grow in soft agar, possess T-antigen, and show a pattern of karyotypic changes similar to that induced by SV40 in human fibroblasts. The choroid origin of HC and HC/SV40 cell lines was confirmed by the presence, in their cytoplasm, of typical electron dense granules. Their neural origin will make these cell lines very useful for neuropharmacological and differentiation studies.     

Simian virus 40-transformed human cells that express large T antigens defective for viral DNA replication.

Many types of human cells cultured in vitro are generally semipermissive for simian virus 40 (SV40) replication. Consequently, subpopulations of stably transformed human cells often carry free viral DNA, which is presumed to arise via spontaneous excision from an integrated DNA template. Stably transformed human cell lines that do not have detectable free DNA are therefore likely to harbor harbor mutant viral genomes incapable of excision and replication, or these cells may synthesize variant cellular proteins necessary for viral replication. We examined four such cell lines and conclude that for the three lines SV80, GM638, and GM639, the cells did indeed harbor spontaneous T-antigen mutants. For the SV80 line, marker rescue (determined by a plaque assay) and DNA sequence analysis of cloned DNA showed that a single point mutation converting serine 147 to asparagine was the cause of the mutation. Similarly, a point mutation converting leucine 457 to methionine for the GM638 mutant T allele was found. Moreover, the SV80 line maintained its permissivity for SV40 DNA replication but did not complement the SV40 tsA209 mutant at its nonpermissive temperature. The cloned SV80 T-antigen allele, though replication incompetent, maintained its ability to transform rodent cells at wild-type efficiencies. A compilation of spontaneously occurring SV40 mutations which cannot replicate but can transform shows that these mutations tend to cluster in two regions of the T-antigen gene, one ascribed to the site-specific DNA-binding ability of the protein, and the other to the ATPase activity which is linked to its helicase activity.     

Characterization of nude mouse skin fibroblast cell lines transformed by combined action of SV40 and 3-methylcholanthrene

Properties of transformed cell lines derived from secondary cultures of newborn NMRI nu/nu (nude) mouse skin fibroblasts by the sequential exposure of 3-methylcholanthrene and a DNA virus, SV40, were studied. Such transformants were compared to cells transformed by 3-methylcholanthrene or SV40 alone for the tumourigenicity, T-antigen expression, different in vitro growth characteristics and natural killer (NK) cell sensitivity. Despite a considerable variation within a group, the cell lines transformed by the combination treatment as a group were more tumourigenic than cell lines of other groups. In addition, the cell lines transformed by the combination treatment showed increased amounts of T-antigen as compared to cell lines transformed by SV40 alone. They also had, on an average, shorter population doubling time, higher cell saturation density, and a higher amount of DNA per cell than cell lines transformed by SV40 alone. Combination treatment cell lines (5 out of 8) grew in soft agar, whereas cell lines transformed by SV40 or 3-methylcholanthrene alone did not. In conclusion, the cell lines transformed by the combination treatment of 3-methylcholanthrene and SV40 had properties related to malignancy more often than cell lines transformed by SV40 or 3-methyl cholanthrene alone.     

Isolation and characterization of renin-expressing cell lines from transgenic mice containing a renin-promoter viral oncogene fusion construct

We constructed transgenic mice containing a renin-promoter SV40 T antigen fusion transgene with the intention of inducing neoplasia in renin-expressing cells and isolating renin-expressing cell lines in vitro. We examined six kidney tumors from mice representing three different transgenic lines and found they expressed their endogenous renin gene. Initially, five nonclonal kidney tumor-derived cell lines were established which expressed their endogenous renin gene in addition to the transgene. They retained active renin intracellularly and constitutively secreted an inactive form of renin (prorenin). One of these cell lines was cloned to homogeneity. This line maintained high level expression of renin mRNA throughout 3 months of continuous culture. Although the cells contained an equal proportion of active and inactive renin, the species constitutively secreted into the media was predominantly (95%) prorenin. However, active renin secretion was stimulated 2.3- and 4.6-fold by treatment with 8-bromo-cAMP after 4 and 15 h, respectively. In addition, the presence of multiple secretory granules was confirmed by ultrastructural analysis. These cells, which express renin mRNA and can regulate secretion of active renin, should provide an excellent tool for studying renin gene regulation and secretion. Furthermore, these mice should provide a useful source for the establishment of renin-expressing cell lines from a variety of renin-expressing tissues.     

SV40 T-antigen expression in cultured fibroblasts from patients with down syndrome and their parents

Expression of simian papovavirus 40 (SV40) T-antigen following in vitro infection was studied in skin fibroblasts from patients with Down syndrome (DS) and their parents to determine whether the increased susceptibility to SV40 infection reflected the cytogenetic defect or the leukemia risk associated with this syndrome. As a group, fibroblasts from patients with DS showed elevated T-antigen expression 72 hrs after infection compared to that of a healthy control population. However, among 24 patients tested, the cell lines of only 11 showed statistically significant increases in T-antigen expression. A cell line from a patient with concurrent DS and acute myelogenous leukemia had a normal value. T-antigen expression did not correlate with the percentage of cells trisomic for chromosome 21 in 18 cell lines examined or with the number of copies of this chromosome in disomic and trisomic cell strains cloned from three mosaic patients.Collectively, cell lines from parents of trisomy 21 patients also showed increased susceptibility to SV40 infection; however, in five families tested, a consistent pattern of genetic transmission of elevated T-antigen expression from parent to offspring was not observed. Q-banding of cell lines in one family showed that elevated T-antigen expression is not a marker of parental nondisjunction. Variation in susceptibility to human interferon, an antiviral agent, did not account for variation in T-antigen levels among these cell lines. Thus, the abnormalities of T-antigen expression in DS appear independent of the hyperdiploid state and are not a sensitive indicator of cancer risk.