Cell properties after repeated transplantation of spontaneously and of SV40 virus transformed mouse cell lines. I. Growth in culture.

"Spontaneously" or SV40 virus transformed AL/N mouse cell lines were passed repeatedly through syngeneic mice. Cell lines were re-established in culture from minced pieces of tumors in the presence of concentrated fetal calf serum or from tumor cells dispersed by trypsin. The aim of this study was to compare the two cell lines in regard to the selection processes which operate during such procedures by characterization of the resulting cell lines. Measurements of growth in tissue culture on substratum showed no significant difference between any of the transformed cell lines. The SV40 transformed cells and its derivative cells had a low anchorage requirement for growth. The greatest anchorage requirement for growth was in the normal untransformed cells and in the derivative cells from the "spontaneously" transformed cells which were established from minced tumors. The spontaneously transformed cells and all derivative cells had high tumorigenicity (TD50 is less than 10-2). The SV40 transformed cells had no observable tumorigenicity (TD50 is greater than 10-8), except when injected into irradiated mice (TD50 = 1-5 X 10-5 in the immunocompetent mice, 5 X 10-4 in the irradiated mice). The SV40 transformed derivative cells maintained their SV40 specific T antigen and their susceptibility to lysis by specific antiserum.     

Variable defectiveness for lytic growth of the dl 54/59 mutants of simian virus 40.

When viral growth in TC-7 cells is compared with that in the simian virus 40 (SV40) transformed CV-1 line C6 some mutants of SV40 deleted between 0.54 and 0.59 on the standard map (dl 54/59 mutants) give relative bursts similar to those of wild-type strain 776, whereas others grow markedly poorer in the untransformed cell. In general, viruses which are defective by this criterion have been found to produce neither a fragmentary small-t protein nor a mature small-t mRNA.     

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.     

Transformation of human cystinotic fibroblasts by SV40: characteristics of transformed cells with limited and unlimited growth potential.

Human skin fibroblasts derived from patients with nephropathic cystinosis were transformed with SV40 virions, cloned and permitted to enter the degenerative stage of growth termed "crisis," characteristic of SV40 transformed human cells. Nephropathic cystinosis is an autosomal recessively inherited metabolic disorder resulting in the intracellular accumulation of the amino acid cystine. A transformed cystinotic cell line which was recovered from the crisis stage was indistinguishable from its transformed precrisis parental cell strain in growth rate in media containing either 1% or 10% serum, cloning efficiency on plastic, in semisolid media, or upon confluent monolayers of normal skin fibroblasts, expression of SV40 T antigen, or production of virus. However, the modal DNA content of the recovered postcrisis transformed cystinotic cell line was different from that of the cloned parental precrisis transformed cell strain, suggesting that the postcrisis line was derived from a small subpopulation of the precrisis strain. The DNA content of the established cystinotic cell line continued to be unstable during subsequent subculturing and gave rise to subclones with both more and less DNA per cell. This line now has an apparently infinite growth potential and still has the hallmark of the cystinotic parental line, the storage of abnormally large amounts of intracellular nonprotein cystine.     

In vitro tumoricidal activity of macrophages against virus-transformed lines with temperature-dependent transformed phenotypic characteristics.

The susceptibility of targets to destruction by tumoricidal rat and mouse macrophages was studied with virus-transformed cell lines in which various elements of the transformed phenotype are only expressed at specific temperatures. BHK cells transformed by the ts3 mutant of polyoma virus, rat embryo 3Y1 cells transformed by a temperature-sensitive A cistron mutant of simian virus 40 (SV40) and the ts-H6-15 temperature-sensitive line of SV40-transformed mouse 3T3 cells were killed in vitro by macrophages at both the permissive (33 °C) or nonpermissive (39 °C) temperatures for expression of the transformed phenotype. 3T3, 3Y1 and BHK cells transformed by wild-type SV40 or polyoma virus were also destroyed by tumoricidal macrophages at both 33 and 39 °C, but untransformed 3T3, 3Y1, and BHK cells were not. Thus, transformed cells are killed by macrophages regardless of whether or not they express cell surface LETS protein or Forssman antigen, display surface changes which permit agglutination by low doses of plant lectins, express SV40 T antigen, have a low saturation density, or exhibit density-dependent inhibition of DNA synthesis.     

Properties of permissive monkey cells transformed by UV-irradiated simian virus 40.

African green monkey cells (CV1 line) were infected with UV-irradiated simian virus 40 (SV40), and permissive lines of stably transformed cells were established. These cell lines display the SV40 T-antigen and the growth characteristics typical of nonpermissive transformed cells (e.g., reduced cell density inhibition, reduced serum dependence, ability to overgrow normal cells, and colony formation in soft agar). The level of permissiveness to superinfecting SV40 is fully comparable with that of nontransformed CV1 and BSC-1 lines. The transformed monkey lines also support SV40 plaque production under agar. By Cot analysis, the transformed permissive cells contain, on an average, 1 to 2 SV40 genome equivalents, and the majority of the viral sequences are associated with the high-molecular-weight cellular DNA. No spontaneous production of infectious SV40 has been observed. The transformed permissive monkey cells failed to support the replication of SV40 tsA mutants at the restrictive temperature. To account for this, it is suggested that the gene A product has separate functions for transformation and initiation of viral DNA synthesis, and only the former function is expressed in the transformed permissive monkey cells.     

Immunologic selection of simian virus 40 (SV40) T-antigen-negative tumor cells which arise by excision of early SV40 DNA.

A clonal line of highly oncogenic spontaneously transformed mouse cells (104C) was transformed in tissue culture by simian virus 40 (SV40) and subsequently recloned (106CSC). This 106CSC cell line expressed T antigen and transplantation antigen but was about 100 times less tumorigenic than the 104C parent. When 10(5) 106CSC cells were injected into immunocompetent syngeneic mice, tumors were produced. From such tumors, cell lines were established in culture, all of which were consistently negative for T antigen. We found previously by solution DNA hybridization methods that the tumor cells were depleted in the early region of SV40 DNA which codes for the T antigen. We postulated that this loss occurs through a DNA rearrangement of unknown mechanism in one or a few 106CSC cells and that the tumors are then produced from such a cell or cells, whereas all the T-antigen-positive 106CSC cells are rejected by immunologic means. In this investigation we showed by the DNA transfer method using appropriately selected SV40 DNA probes that indeed the tumor cell clone (130CSCT) we selected to investigate came from one 106CSC cell in which the T-antigen-coding SV40 DNA sequences (but not all the early SV40 DNA sequences) were lost by an excision and recombination mechanism. We also showed that the 130CSCT cells, which are highly tumorigenic, could again be transformed by SV40 and that the resulting T-antigen-positive cloned derivative cells became much less tumorigenic (approximately 10(5)-fold), apparently again because of immunologic recognition and rejection. Indeed, when 10(7) T-antigen-positive cloned cells were injected, all the T-antigen-positive cells were rejected and the tumor was produced again from one or more T-antigen-negative cells. Thus, a one-step in vivo transplantation experiment allowed a selection (for tumorigenicity and against the SV40 T antigen) of a mutant mammalian cell with a DNA deletion at a definable site.     

Induction of tumorigenesis and chromosomal abnormalities in human amniocytes infected with simian virus 40 and kirstein sarcoma virus

Summary Cell cultures of epithelial-like human amniocytes were infected with simian virus 40 (SV40) and Kirsten sarcoma virus (KSV) in various sequential orders, and tested for agar growth, chromosome abnormalities, and tumorigenesis in the nude mouse assay. We observed that regardless of the order in which the viruses were introduced, the doubly infected cells always exhibited the typical SV40 premalignantly transformed phenotype before changing to the malignant phenotype. All doubly transformed cells from different cell donors produced tumors in adult and suckling nude athymic mice, classified as poorly differentiated sarcomas. Infection with SV40 alone conferred extended life span and accelerated growth without, the malignant capability of tumor production. Kirsten sarcoma virus alone produced only focal cell alteration with no change in cell longevity or tumorigenesis. Chromosome studies of the premalignant and malignant cells from one cell donor did not reveal any significant clonal development for marker chromosomes in either cell line. Chromosome 12, which carries the homologous cellular oncogene to KSV, had no increase in aberrations in the malignant cells. Chromosome 8 was most often involved in aberrations, and the most frequent aberration for both series was dicentric chromosomes due to telomere fusion. For other translocations the breakpoints were almost exclusively in the centromere regions. The vulnerability of telomere and centromere regions to the free virus present in these precrisis cells is discussed, and similarities in regard to types of aberrations in transfection experiments are noted.     

Study of the Functional Activities Concomitantly Retained by the 115,000 Mr Super T Antigen, an Evolutionary Variant of Simian Virus 40 Large T Antigen Expressed in Transformed Rat Cells

Simian virus 40 (SV40) transformed V 11 F 1 clone 1 subclone 7 rat cells (subclone 7) do not synthesize normal-size large T antigen (M(r), 90,000); instead, they produce a 115,000 M(r) super T antigen (115K super T antigen). This super T antigen is SV40 virus coded, and its synthesis results from rearrangement and amplification of integrated viral DNA sequences in subclone 7 (May et al., Nucleic Acids Res. 9:4111-4128, 1981). In this study the functional activities of 115K super T antigen were compared with the functional activities of SV40 large T antigen. Transfection experiments were performed with (i) cosmid SVE 5 Kb and plasmid pSVsT, both containing the super T antigen gene and (ii) plasmids pSV1 and pSV40, both containing the large T antigen gene. Transfection of pSVsT DNA or SVE 5 Kb DNA into secondary cultures of rat kidney cells induced the formation of transformed cell foci with an efficiency that was about 50% of the efficiency of pSV1 DNA or pSV40 DNA. Concomitant with the transforming activity, two other activities were also retained by super T antigen, namely, the ability to enhance the level of host cellular protein p53 and the capacity to bind to p53. In contrast, pSVsT and SVE 5 Kb DNAs were markedly deficient in the capacity to support tsA58 DNA replication in CV1-P cells at a nonpermissive temperature (41 degrees C), as shown by cotransfection experiments. The yield of virus produced in these experiments was 400-fold less than the yield obtained in parallel experiments with pSV40 or pSV1. However, SVE 5 Kb and pSVsT have a functional SV40 replication origin, as shown by their efficient replication in COS 1 cells which provided functional large T antigen. Super T antigen also possesses a specific affinity for sequences of SV40 viral origin. Our results suggest that under certain conditions, evolutionary changes in T antigen take place and that these changes could be restricted to the phenotypic requirement of maintaining a structure that is able to induce cell transformation, to form a complex with p53, and to enhance the cellular level of p53. Therefore, there appears to be a close relationship among the activities of T antigen involved in transforming cells, in binding to p53, and in enhancing the p53 cellular level. Moreover, this set of activities appears to be separable from the replicative ability of T antigen, based on the observation that 115K super T antigen is markedly defective for initiating viral DNA synthesis.     

Establishment of rat pancreatic endocrine cell lines by infection with simian virus 40.

The feasibility of infection and transformation by SV40 (simian virus 40) of primary cell cultures derived from newborn-rat pancreas was investigated. As judged by the presence of intranuclear SV40 T-antigen, exposure to the virus resulted specifically in infection and transformation of epithelioid (predominantly endocrine) cells. The transformed cells were subcultured (more than 64 passages) and cloned. Culture medium and acid/ethanol extracts of the cells did not contain detectable amounts of immunoreactive insulin after the third subculture. However, inoculation of such SV40-transformed pancreatic cells into immunodeficient rats results in tumours in which insulin production was partially restored through the passage in vivo, since the tumour cells contained and synthesized small amounts of immunoreactive insulin which co-migrated with an insulin marker on gel chromatography. Interestingly, the transformed cells maintained under tissue-culture conditions produced a protein immunologically related to insulin, soluble in aqueous buffer but insoluble in acid/ethanol. This 3000-dalton protein is too large to be a translation product of the rat preproinsulin 9S mRNA. SV40-transformed pancreatic cells might prove useful in the investigation of the factors controlling and maintaining insulin biosynthesis.     

Biological and biochemical characterization of an SV40-transformed xeroderma pigmentosum cell line

We have isolated a subclone of the SV40-transformed xeroderma pigmentosum (XP) cell line SV40XP12RO. The cell line, designated M1, is highly sensitive to ultraviolet light and is deficient in unscheduled DNA synthesis. The isoenzyme, HLA profile and karyotype of the cell line is presented. The structure and function of the resident SV40 genome is analysed. The M1 clone contains a complete copy of the SV40 genome flanked by partial SV40-DNA copies in a head-to-tail arrangement. The large T-antigen is defective in the ability to induce SV40-DNA replication. The M1 subclone is an efficient recipient of DNA in transfection experiments. Transfection of these cells with the pSV₂gpt plasmid shows that the M1 subclone is as efficient as the NIH 3T3 cell line in uptake and expression of foreign DNA. This cell line should be suitable for genetic analysis of the xeroderma pigmentosum defect. It should also be useful for the study of gene expression in human cells.     

Protein synthesis in 3T3 and SV40-transformed 3T3 cells. Activity of ribosomes and cytosol proteins in cell-free protein synthesis.

The activity of specific components involved in protein synthesis in 3T3 cells and its SV40-transformed derivative, SV3T3, were examined in a cell-free protein synthetic system, and the results correlated with previous studies, indicating that a decreasing rate of protein synthesis does not accompany the stationary phase of growth. We found that 3T3 and SV3T3 polysome preparations containing endogenous mRNA were equally efficient in supporting cell-free protein synthesis in this system. Further, the net protein synthesis observed was not altered by an increase in the population density of the cellular polysome source. The activity of the aminoacyl-tRNA synthetase enzymes from 3T3 and SV3T3 cells was examined in vitro after isolation by pH 5 precipitation and by ammonium sulfate fractionation. The activity of these preparations from stationary phase 3T3 and nonexponential phase SV3T3 cells was found to be approximately 3 times higher than the activity of fractions from the homologous exponential phase cell. However, at both growth stages, the SV3T3 preparations were 30 to 40 times more active than the 3T3 preparations. These findings may have implications for the different growth properties observed in the two cell types.     

The amount of a specific cellular protein (p53) is a correlate of differentiation in embryonal carcinoma cells

A specific cellular protein of molecular weight of 53–55,000 (p53) has been shown to be induced in all SV40 transformed cells. A similar protein has also been shown to be present in embryonal carcinoma cells and in midgestation murine embryo primary cells, which are not infected by SV40. In embryo cell primaries the amount of the protein was shown to decrease with the increase in the stage of embryo development. As differentiation or decrease in cell growth rate can account for this, and since the growth rate of embryo primary cells cannot be measured, we chose to investigate various embryonal carcinoma cells. We report that the p53 is present in a pluripotent embryonal carcinoma cell OTT6050, and in its differentiated parietal endoderm derivative, PYS-2 cells. The amount of p53 is higher in the undifferentiated EC stem cells than in the differentiated PYS-2 (parietal endoderm) cells. The amount of the protein decreases in F9 embryonal carcinoma cells induced to differentiate to a parietal endoderm cell type by treatment with retinoic acid, as it does following spontaneous differentiation of OTT6050 EC cells. To determine if a change in growth rate, rather than differentiation, might acount for the diminished levels of this protein, the amount ofp53 was measured in growing and in growth arrested cell populations. When the growth rate of F9 cells was reduced by treatment with 8-bromocyclic AMP there was no change in the amount of p53. The half life of the p53 was compared in the undifferentiated and the differentiated cell types to determine if a change in stability might account, in part, for the altered levels of this protein. The p53 is found to be most stable in the SV40 transformed established clonal cells. It is less stable in the fibroblast clonal cells which were not transformed by SV40. The results of these experiments indicate that a decrease in the amount of p53 primarily correlates with differentiation in the embryonal carcinoma cell lines studied and not with cell growth rate. Furthermore, the decrease appears to be related (in part) to the decreased stability of the p53.     

Transformation-sensitive and growth-related changes of protein synthesis in REF52 cells. A two-dimensional gel analysis of SV40-, adenovirus-, and Kirsten murine sarcoma virus-transformed rat cells using the REF52 protein database

Two-dimensional gels of normal and virally transformed REF52 cells have been quantified and compared using the QUEST system for construction and analysis of protein databases. The REF52 protein map is based on more than 1600 high quality spots, and the relative amounts of these proteins are studied in 79 gels representing 12 major experiments. REF52 cells transformed by SV40, adenovirus, and Kirsten murine sarcoma virus (KiMSV) are compared to normal REF52 cells at several stages of growth from low density to confluence and after refeeding confluent cells. In addition, early (1-4 h) and late (21-24 h) responses to serum stimulation were measured in normal, SV40-and adenovirus-transformed cells. The database has been analyzed with respect to 1) known marker proteins and protein sets, 2) global comparison of protein patterns, and 3) selection of unknown spots which have interesting patterns of regulation. For the marker proteins, which include the tropomyosin family and the proliferation-sensitive nuclear antigen, new aspects of regulation by growth and transformation have been revealed. Proliferation-sensitive nuclear antigen, a protein known to be involved in DNA synthesis, is growth-regulated in normal cells and overexpressed in some SV40- and adenovirus-transformed cells. Global comparisons reveal no overall correlation between growth-regulated changes and transformation-induced changes; however, a set of 26 coregulated proteins, including proliferation-sensitive nuclear antigen, was found to be overexpressed in REF52 cells transformed by SV40 or adenovirus. These proteins are synthesized at rates that correlate with the rate of cell proliferation in REF52 and Kirsten murine sarcoma virus-transformed cells but, in SV40- and adenovirus-transformed cells, these proteins are synthesized at high levels independent of the rate of growth. These data suggest that the transforming proteins of SV40 and adenovirus share a function that results in deregulation of the genes coding for a class of cell cycle-regulated proteins.     

Isolation and characterization of a heat-inducible simian virus 40 mutant.

We have isolated a new type of temperature-sensitive mutant of simian virus 40 (SV40) that is capable of productive infection in permissive cells but not of maintenance of viral DNA integration in transformed cells at the conditional temperature. Virus development is induced when cells transformed by this mutant are shifted to temperatures above 39 degrees C, but is not induced below this temperature. The plaque-purified, temperature-sensitive mutant virus confers heat inducibility to new host cells, indicating that the conditional function is a property of the viral genome. Unlike previously described temperature-sensitive SV40 mutants, in (ts)-1501 is capable of productive infection in permissive cells at the conditional temperature. The morphology, growth, and oncogenicity of in (ts)-1501-transformed cells at 37 degrees C are similar to those of cell lines transformed by wild-type SV40. HK10-c2(in(ts)-1501), a cloned cell line, transformed at 37 degrees C by the mutant virus, exhibits a transient increase in DNA synthesis before cell death at the conditional temperature. Many properties of in(ts)-1501 are analogous to those of the heat-inducible mutants of bacteriophages in which a heat-inactivated protein is responsible for the stable integration of the prophage in the bacterial chromosome.     

Endogenous butyrylcholinesterase in SV40 transformed cell lines: COS-1, COS-7, MRC-5 SV40, and WI-38 VA13

Summary Comparison of proteins expressed by SV40 transformed cell lines and untransformed cell lines is of interest because SV40 transformed cells are immortal, whereas untransformed cells senesce after about 50 doublings. In MRC-5 SV40 cells, only seven proteins have previously been reported to shift from undetectable to detectable after transformation by SV40 virus. We report that butyrylcholinesterase is an 8th protein in this category. Butyrylcholinesterase activity in transformed MRC-5 SV40 cells increased at least 150-fold over its undetectable level in MRC-5 parental cells. Other SV40 transformed cell lines, including COS-1, COS-7, and WI-38 VA13, also expressed endogenous butyrylcholinesterase, whereas the parental, untransformed cell lines, CV-1 and WI-38, had no detectable butyrylcholinesterase activity or mRNA. Infection of CV-1 cells by SV40 virus did not result in expression of butyrylcholinesterase, showing that the butyrylcholinesterase promoter was not activated by the large T antigen of SV40. We conclude that butyrylcholinesterase expression resulted from events related to cell immortalization and did not result from activation by the large T antigen.     

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.     

Pyrimidine biosynthesis in normal and transformed cells

We have developed procedures for sensitive measurement of specific radioactivities of pyrimidine nucleosides excreted from cells in culture. The changes in the observed values reflect dilution of the added isotope through de novo biosynthesis of nonradioactive pyrimidine nucleosides or by shifting and equilibration of other nucleotide pools into the free uridine pool. It is thus possible to monitor uridine biosynthesis occurring in intact cells without destroying or disrupting the cell population. On comparing a series of normal and transformed lines, we have observed several growth-dependent patterns of change in specific activity and levels of uridine excretion and the temporal appearance of these changes. Hamster embyro fibroblasts slows pyrimidine biosynthesis at mid-growth while the hamster cell line V79 continues to dilute the pyrimidine pool at about 7% of the rate observed during exponential growth at confluence. Both cells exhibit Urd excretion beginning at one-half maximal growth. Passageable normal rat liver cells (IARC-20) also show a cessation of pyrimidine biosynthesis with a prior increase in uridine excretion. Two chemically transformed lines IARC-28 and IARC-19 derived from IARC-20 show different patterns. IARC-19 begins uridine excretion in early log growth and the specific activity continues to decrease at about 2% of the rate observed during exponential growth at confluence. The IARC-28 cells also begin excretion in early log growth but pyrimidine biosynthesis stops at about midlog. This method may prove to be an additional aid in recognizing and differentiating transformed cells in culture that do not exhibit the transformed phenotype.     

Response of Simian Virus 40-Transformed Cell Lines and Cell Hybrids to Superinfection with Simian Virus 40 and Its Deoxyribonucleic Acid

Whereas normal human and monkey cells were susceptible both to intact simian virus 40 (SV40) and to SV40 deoxyribonucleic acid (DNA), human and monkey cells transformed by SV40 were incapable of producing infectious virus after exposure to SV40, but displayed susceptibility to SV40 DNA. On the other hand, mouse and hamster cells, either normal or SV40-transformed, were resistant both to the virus and to SV40 DNA. Hybrids between permissive and nonpermissive parental cells revealed a complex response: whereas most hybrids tested were resistant, three of them produced a small amount of infectious virus upon challenge with SV40 DNA. All were resistant to whole virus challenge. The persistence of infectious SV40 DNA in permissive and nonpermissive cells up to 96 hr after infection was ascertained by cell fusion. The decay kinetics proved to be quite different in permissive and nonpermissive cells. Adsorption of SV40 varied widely among the different cell lines. Very low adsorption of SV40 was detected in nonsusceptible cells with the exception of the mKS-BU100 cell line. A strong increase in SV40 adsorption was produced by pretreating cells with polyoma virus. In spite of this increased adsorption, the resistance displayed by SV40-transformed cells to superinfection with the virus was maintained.