Assembly of basement membrane in vitro by cooperation between alveolar epithelial cells and pulmonary fibroblasts

To investigate basement membrane formation by cooperation between pneumocytes and pulmonary fibroblasts, we cultured type II alveolar epithelial cells obtained from rats transfected with SV40-large T antigen gene (SV40-T2 cells) on type I collagen matrices. On fibroblasts-embedded gel (T2-Fgel), SV40-T2 cells ultrastructurally formed a continuous and thin layer of lamina densa, while on collagen gel without fibroblasts (T2-gel) SV40-T2 cells produced only discontinuous and diffuse deposits. Stripping SV40-T2 cells off the tissues by H2O2 treatment revealed a continuous and plane surface of lamina densa assembled on the T2-Fgel tissue, whereas only amorphous deposits appeared on the T2-gel tissue. Immunolocalization of major basement membrane components showed that type IV collagen, laminin, perlecan and entactin (nidogen) were continuously integrated on the lamina densa in T2-Fgel. In T2-gel, all these components were discontinuously distributed beneath SV40-T2 cells. The contribution of pulmonary fibroblasts to the assembly of basement membrane through reorganization of collagen matrix and/or soluble factors was examined by the cultured of SV40-T2 cells on the freeze-thawed fibroblast-tissue and/or with the fibroblast-conditioned medium. Both SV40-T2 cells on the freeze-thawed fibroblast-tissue and SV40-T2 cells in T2-gel in the fibroblast-conditioned medium failed to produce a lamina densa. SV40-T2 cells could assemble a lamina densa only on the freeze-thawed fibroblast-tissue in the fibroblast-conditioned medium. These results show that the basement membrane components are assembled to a lamina densa by combination of the reorganization of collagen matrix and the supply of soluble factors by pulmonary fibroblasts.

Elevated recombination in immortal human cells is mediated by HsRAD51 recombinase

Normal diploid cells have a limited replicative potential in culture, with progressively increasing interdivision time. Rarely, cell lines arise which can divide indefinitely; like tumor cells, such "immortal" lines display frequent chromosomal aberrations which may reflect high rates of recombination. Recombination frequencies within a plasmid substrate were 3.5-fold higher in nine immortal human cell lines than in six untransformed cell strains. Expression of HsRAD51, a human homolog of the yeast RAD51 and Escherichia coli recA recombinase genes, was 4.5-fold higher in immortal cell lines than in mortal cells. Stable transformation of human fibroblasts with simian virus 40 large T antigen prior to cell immortalization increased both chromosomal recombination and the level of HsRAD51 transcripts by two- to fivefold. T-antigen induction of recombination was efficiently blocked by introduction of HsRAD51 antisense (but not control) oligonucleotides spanning the initiation codon, implying that HsRAD51 expression mediates augmented recombination. Since p53 binds and inactivates HsRAD51, T-antigen-p53 association may block such inactivation and liberate HsRAD51. Upregulation of HsRAD51 transcripts in T-antigen-transformed and other immortal cells suggests that recombinase activation can also occur at the RNA level and may facilitate cell transformation to immortality.

Establishment of a human placental endothelial cell line with extended life span after transfection with SV 40 T-antigens

Studies utilizing microvascular human endothelial cells are relatively few because of substantial difficulties in isolation and cultivation, respective limited proliferation capability and functional variation of primary cells. To facilitate the closer examination of capillary endothelial characteristics, we isolated microvascular endothelial cells from full-term placenta and transfected the cells via lipofection with pRNS-1, encoding for the small and large T-antigens of SV 40. One cell line, HPEC-A1, with a largely extended life span was isolated and kept in culture for up to 80 cumulative population doublings. The cell line HPEC-A1 expressed SV 40 T-antigens and exhibited endothelial characteristics identical to primary cells, such as the uptake of low density lipoprotein, binding of Ulex europaeus lectin I, and the expression of von Willebrand factor, thrombomodulin-alpha, VE-cadherin, and a set of integrins.

DNA-damage-inducible p53 activity in SV40-transformed cells

The biological state of the tumour suppressor proteins Rb and p53 is altered in papillomavirus- and SV40-transformed cells, due to interaction with the DNA tumour virus oncogene proteins E6/E7 and the tumour (T) antigen. Thus, the DNA damage response function of p53, a crucial feature of the tumour suppressor p53, might be considered as inactive. To investigate this subject, C57SV and VLM, two SV40-transformed murine cell lines enharboring constitutively high nuclear p53 and SV40 large T antigen levels, were treated with mitomycin C. Mitomycin C is known for its activity to elicit DNA damage, followed by nuclear accumulation of biologically active p53. Surprisingly, the nuclear p53 level significantly increased in mitomycin-C-treated C57SV cells and to a lesser degree in VLM cells. In addition, expression of p21WAF1 protein was induced in C57SV and VLM cells. This indicates a possible DNA-damage-elicited p53 activation. Finally, nuclear extracts of mitomycin-C-treated C57SV and VLM cells, but not of untreated cells, exhibited PAb421-enhanced specific DNA-binding activity of p53, as proven by gel shift analysis. Thus, DNA damage induced essential biological functions typical for wild-type p53 in the SV40-transformed cell lines examined so far.

Functional analysis of mouse keratin 8 in polyoma middle T-induced mammary gland tumours

Keratin 8 and 18 are commonly used as tumorigenic markers for various types of carcinomas. They are known to be involved in cell migration, cell invasiveness, plasminogen activity and drug and radiation resistance. To ascertain a potential function for simple epithelium keratins in mammary adenocarcinoma in vivo, keratin-8-deficient mice (mK8) were mated with transgenic mice carrying the middle T oncogene driven by the MMTV promoter. The resulting mK8 knockout and control progeny carrying the middle T transgene developed mammary gland tumours with the same incidence. However, the onset of palpable mammary gland tumours occurred earlier in mK8 mutant than in control mice. This effect was prominent in males where the onset in control animals is delayed overall, because of the lower hormonal inducibility of the MMTV promoter. Metastatic foci were observed in the lungs of all females and of a few males, independently of the genotype. Histological analysis revealed no morphological differences of the tumorigenic cells in primary tumours nor in metastatic foci. As expected, keratin 8 was absent in the mK8 tumours. Keratin 7 (mK7), keratin 18 (mK18) and keratin 19 (mK19) protein were observed in both primary and metastatic foci. These results constitute the first in vivo analysis of the role of simple epithelium keratins in mammary carcinogenesis. It demonstrates that the latency, but not the incidence nor the morphological features, of PyV middle T-induced mammary gland tumours is affected by keratin 8 deficiency.

The N-terminal side of the origin-binding domain of simian virus 40 large T antigen is involved in A/T untwisting

We investigated the role of the N-terminal side of simian virus 40 (SV40) large T antigen's origin-binding domain in the initiation of virus DNA replication by analyzing the biochemical activities of mutants containing single point substitutions or deletions in this region. Four mutants with substitutions at residues between 121 and 135 were partially defective in untwisting the A/T-rich track on the late side of the origin but were normal in melting the imperfect palindrome (IP) region on the early side. Deletion of the N-terminal 109 amino acids had no effect on either activity, whereas a longer deletion, up to residue 123, greatly reduced A/T untwisting but not IP melting. These results indicate that the region from residue 121 to 135 is important for A/T untwisting but not for IP melting and demonstrate that these activities are separable. Two point substitution mutants (126PS and 135PL) were characterized further by testing them for origin DNA binding, origin unwinding, oligomerization, and helicase activity. These two mutants were completely defective in origin (form U(R)) unwinding but normal in the other activities. Our results demonstrate that a failure to normally untwist the A/T track is correlated with a defect in origin unwinding. Further, they indicate that some mutants with substitutions in the region from residue 121 to 135 interact with origin DNA incorrectly, perhaps by failing to make appropriate contacts with the A/T-rich DNA.

Establishment of human peripheral lung epithelial cell lines (HPL1) retaining differentiated characteristics and responsiveness to epidermal growth factor, hepatocyte growth factor, and transforming growth factor beta1

Novel human epithelial cell lines retaining characteristic features of normal peripheral airway cells were established by transfecting the SV40 large T antigen gene into primary in vitro outgrowths from normal peripheral lung specimens. These lines, designated as HPL1A to HPL1E, showed the polygonal shapes typical of epithelial cells and expressed cytokeratin in abundance. Ultrastructural examination revealed the presence of microvilli, multivesicular bodies, and multilamellar body-like structures that are characteristic of type II pneumocytes, but expression of CC1O transcripts, a highly specific marker for Clara cells, was also observed. Response to transforming growth factor beta, epidermal growth factor (EGF), and hepatocyte growth factor, all of which are thought to be important growth-regulatory molecules for cellular proliferation and developmental processes of peripheral lung, was apparent. In the HPL1A case, markedly altered cell morphology and cytoskeletal organization, potent inhibition of cell growth, and increased expression of an extracellular matrix protein were noted with transforming growth factor beta. Interestingly, both EGF and hepatocyte growth factor stimulated anchorage-dependent growth, whereas only EGF could sustain anchorage-independent proliferation. The HPL1 lines are, to our knowledge, the first series of stable epithelial lines of human peripheral lung to be described. They should be valuable for investigating various aspects of growth regulation and oncogenic processes, including the mechanisms of acquisition of anchorage independence and the interrelationships of genetic changes identified previously in lung cancers. In addition, the HPL1 lines may also prove useful for development of in vitro models for other human lung disorders as well as to elucidate the mechanisms of peripheral lung differentiation.

Role of cell cycle regulators in tumor formation in transgenic mice expressing the human neurotropic virus, JCV, early protein

Transgenic mice harboring the early genome from the human neurotropic JC virus, JCV, develop massive abdominal tumors of neural crest origin during 6-8 months after birth and succumb to death a few weeks later. The viral early protein, T-antigen, which possesses the ability to transform cells of neural origin, is highly expressed in the tumor cells. Immunoblot analysis of protein extract from tumor tissue shows high level expression of the tumor suppressor protein, p53, in complex with T-antigen. Expression of p21, a downstream target for p53, which controls cell cycle progression by regulating the activity of cyclins and their associated kinases during the G1 phase, is extremely low in the tumor cells. Whereas the level of expression and activity of cyclin D1 and its associated kinase, cdk6, was modest in tumor cells, both cyclin A and E, and their kinase partners, cdk2 and cdk4, were highly expressed and exhibited significant kinase activity. The retinoblastoma gene product, pRb, which upon phosphorylation by cyclins:cdk induces rapid cell proliferation, was found in the phosphorylated state in tumor cell extracts, and was detected in association with JCV T-antigen. The transcription factor, E2F-1, which dissociates from the pRb-E2F-1 complex and stimulates S phase-specific genes upon phosphorylation of pRb and/or complexation of pRb with the viral transforming protein, was highly expressed in tumor cells. Accordingly, high level expression of the E2F-1-responsive gene, proliferating cell nuclear antigen (PCNA), was detected in the tumor cells. These observations suggest a potential regulating pathway that, upon expression of JCV T-antigen, induces formation and progression of tumors of neural origin in a whole animal system.

Reduced p53 dosage associated with mammary tumor metastases in C3(1)/TAG transgenic mice

Transgenic mice expressing the simian virus 40 large T-antigen (TAG) under the regulatory control of the rat prostatic steroid binding protein C3(1) gene develop mammary carcinomas (in females) and prostate carcinomas (in males). The development of carcinomas occurs several months after the appearance of dysplastic lesions, suggesting that TAG is necessary but insufficient for tumor formation and that other genetic events are involved in this process. TAG is known to bind to p53 and to result in its functional inactivation, which is believed to be a critical step in TAG-induced transformation. We investigated whether the TAG-p53 interaction is rate limiting in the development of phenotypic changes in these transgenic mice by crossing C3(1)/TAG transgenics with mice carrying null mutations of the p53 gene. TAG-expressing animals with a p53+/- genotype developed much more aggressive mammary tumors, as evidenced by increased numbers and size of metastases, than did TAG-expressing animals carrying two wild-type p53 alleles. While p53 was expressed in primary tumors, p53 expression appeared to be reduced or lost in many metastases in mice carrying either the p53+/+ or p53+/- genotypes. The tumorigenic process did not appear to be due to the loss of the second wild-type p53 allele or the gain of dominant oncogenic mutations in p53, as no mutations were detected in either primary or metastatic tumors by polymerase chain reaction--single-strand conformation polymorphism analyses. These findings suggest that despite the presence of TAG, p53 levels influence the characteristics of the late stages of mammary tumor growth and accelerate metastases. Functional loss of p53 and not p53 mutations participates in TAG-induced mammary carcinoma development and progression.

Critical stages of tumor growth regulation in transgenic mice harboring a hepatocellular carcinoma revealed by distinct patterns of tumor necrosis factor-alpha and transforming growth factor-beta mRNA production

There is now good evidence that cytokines contribute to the regulation of tumor growth. The cytokine-driven modulation of tumor growth was investigated during the progression of a hepatocellular carcinoma (HCC) in SV40 large T tumor antigen transgenic mice. In vivo, an increased rate of liver growth correlated with increased transforming growth factor (TGF)-beta 1 mRNA expression, while the greatest amounts of tumor necrosis factor (TNF)-alpha mRNA were detected earlier during tumor development. Conversely, no particular alteration of IL-1 alpha, IL-1 beta, IL-6, IL-2, IL-4 and IFN-gamma mRNA production could be reported. In vitro, hepatocyte-like tumor cell lines established at two stages, either before or after HCC differentiation, were characterized. The early-stage-derived cell line produced TNF-alpha mRNA, but had barely detectable expression of TGF-beta 1 mRNA, while later-stage-derived cell lines showed the reciprocal pattern. All cell lines displayed a lack of sensitivity to TNF-alpha, although some degree of sensitivity to TNF-alpha could be observed in the presence of actinomycin-D or after treatment with IFN-gamma. The early-stage-derived cell line was sensitive to the growth inhibitory effects of TGF-beta 1, but late-stage-derived tumor cell lines displayed a loss of sensitivity to TGF-beta 1 which correlated with the increased expression of TGF-beta 1 mRNA. Altogether, this suggests that tumor cells contribute to the discrete TNF-alpha and TGF-beta 1 expression patterns during HCC progression. This model of HCC could be of valuable interest to assess the impact of various immunotherapeutic strategies on modulation of tumor growth.

An immortalized septal cell line that expresses trkA mRNA in response to basic fibroblast growth factor

Cells dissociated from embryonic rat septum were transfected with SV40 large T antigen gene by the calcium phosphate precipitation method. One of the cloned lines (EG6) had a flat morphology and expressed nestin gene, a marker of neural stem cells. Upon stimulation with basic fibroblast growth factor (bFGF), morphological changes of EG6 cells were induced, e.g. shrinkage of cell body and extension of neuritic processes. Furthermore, bFGF induced expression of the high affinity NGF receptor (trkA) gene. EG6 cell line thus will be useful for studies of roles of bFGF in the developing CNS as well as for studies of the regulation of trkA gene expression.

Morphological study of pituitary tumorigenesis in transgenic mice induced by hybrid oncogene of the thyrotropin beta-subunit and the simian virus 40 large T-antigen

We have created a transgenic mouse, TTP-1, generating anterior pituitary tumors by using the simian virus 40 (SV40) large T antigen gene and human thyrotropin beta-subunit gene. To examine characteristics of tumors, histological details were investigated using light and electron microscopies. The main tumor tissues, composed of small chromophobe cells, were located inferior to but clearly separated from the hypothalamus; however, neuron fibers probably derived from the hypothalamus were observed to invade some tumor tissues. Some differentiated endocrine cells occupied the caudal region of the tumor. Immunohistochemically, SV40 large T antigen was expressed in the cell nucleus of the undifferentiated cell area, whereas cells expressing several hormones were mainly distributed in the differentiated cell area. Electron microscopically, the undifferentiated cells were divided into 2 types; electron-dense and -lucent cells, the nuclei of which were composed of obscured nucleoli and many notable invaginations of the nuclear membrane. No intracellular microfilamentous structures were observed. Sometimes it was noted that cytoplasmic processes were connected with gap junctions. In the intercellular spaces, there were neuron fibrous and synapse-like structures. In the differentiated cell area, the cell membranes directly contacting other cells were relatively smooth, and many gap junctions were demonstrated. Secretory granules, which were round and less than 100 nm in diameter, were more electron dense in smaller cells than in larger cells. They were aligned just below the cell membrane. Immuno-electron microscopically, positive reactions for SV40 were observed in the nuclei of the undifferentiated cell area. In the differentiated cell area, most of the secretory granules were labeled by GH. TTP-1 transgenic mice should provide a valuable animal model for studying the pathogenesis of anterior pituitary tumors.

n beta geo, a combined selection and reporter gene for retroviral and transgenic studies

Nuclear-targeted beta-galactosidase (beta-gal) is increasingly used as a genetic cell marker in vitro and in vivo. Nuclear sequestration concentrates beta-gal and permits sensitive identification of expressing cells and/or tissues without obscuring the cytoplasmic detail necessary for analysis of cell phenotype. Here, we report the construction and testing of a nuclear-targeted version of the beta geo fusion protein that combines nuclear localization with the ability to select expressing cells with the drug G418. This new marker gene functions efficiently in retroviral vectors and will be useful in identification and isolation of cells transfected in vitro and cells expressing transgenic or gene-targeted constructs in vivo.

Transient expression of SV 40 large T antigen by Cre/LoxP-mediated site-specific deletion in primary human tumor cells

A 'bottle-neck' for construction of autologous genetically engineered tumor vaccines and characterization of tumor antigens consists in the difficulty of establishing cell lines from human tumor material. We have constructed two retroviruses allowing transient expression of Simian virus 40 large T as an immortalizing agent. The first vector contains the genes for hygromycin and Herpes Simplex Virus thymidinkinase (TK), for positive and negative selection and the gene encoding large T. They are flanked by LoxP sites, the substrate of the bacteriophage recombinase Cre. The second retrovirus contains the genes for the Cre recombinase and puromycin as selection marker. By sequential infection of NIH3T3 cells with the two viruses, we have shown that the newly expressed large T gene can be deleted in a large proportion (> or =90%) of cells by site-specific recombination. Because the deletion included the TK gene, selection with gancyclovir against cells not having undergone recombination was possible. By infection with the large T retrovirus, cell lines could be easily established from mouse primary kidney cells, human fibroblasts, and cells derived from different surgical specimens of breast or colon cancer patients. One breast carcinoma cell line was further analyzed and shown to be of epithelial origin by characteristic markers (cytokeratins, mucin). This cell line grew continuously in culture for more than a year without any indication of a cell crisis. Infection with the cre-puro retrovirus and GCV selection resulted in complete excision of the large T gene as judged from antibody staining. Remarkably, these cells changed morphology and stopped proliferation comparable to the cells obtained from biopsy demonstrating the requirement of large T for growth. Therefore, this approach may facilitate molecular and cellular characterization of human tumors and other cell types where cell culturing is the limiting step, and gene therapy approaches involving autologous tumor cells.

Examining the role of Paneth cells in the small intestine by lineage ablation in transgenic mice

The Paneth cell lineage is one of four epithelial lineages derived from the adult mouse small intestine's multipotent stem cell. Mature Paneth cells secrete antimicrobial peptides (cryptdins), growth factors, as well as two gene products, a secreted phospholipase A2 and matrilysin, that has been implicated as modifiers of adenoma formation in mice containing a mutation in the tumor suppressor Apc. Immature Paneth cells are located just above and below the cell layer, in intestinal crypts, that has been proposed to contain the multipotent stem cell. Paneth cells differentiate during a downward migration to the crypt base. The location and direction of Paneth cell migration, their high density and long residency time at the crypt base, and the nature of their secreted gene products, suggest that they may influence the structure and/or function of the stem cell niche. Paneth cell ablation can therefore be viewed as an experimental manipulation of the cellular microenvironment that purportedly contains the stem cell and its immediate descendants. Two types of ablation experiments were performed in transgenic mice. Nucleotides -6500 to +34 of the mouse cryptdin-2 gene (CR2) were used to express an attenuated diphtheria toxin A fragment. Light and electron microscopic immunohistochemical analyses of several pedigrees of postnatal day 28 to 180 animals established that ablation of Paneth cells is accompanied by an increase in the proportion of undifferentiated crypt base columnar cells. These cells normally co-exist with Paneth cells. The ablation does not produce a detectable effect on the proliferation or terminal differentiation programs of the other three lineages or on host-microbial interactions. The last conclusion is based on the ability of crypts to remain free of microbes detectable by Gram and Warthin-Starry stains and by retention of the normal crypt-villus distribution of components of the diffuse gut-associated lymphoid tissue. CR2-directed expression of simian virus 40 large T antigen also results in a loss of mature Paneth cells but produces a marked amplification of crypt cells having a morphology intermediate between Paneth and granule goblet cells. EM immunohistochemical analyses suggest that intermediate cells can differentiate to mature goblet cells but not to Paneth cells, as they migrate up the crypt-villus axis. Our findings suggest that (i) stemness in the crypt is not defined by instructive interactions involving the Paneth cell; (ii) expressing a Paneth cell fate may require that precursors migrate to the crypt base; (iii) antimicrobial factors produced by Paneth cells are not required to prevent colonization of small intestinal crypts; and (iv) this lineage does not function to maintain the asymmetric crypt-villus distribution of components of the diffuse gut-associated lymphoid tissue.

Stable and temperature-sensitive transformation of baby rat kidney cells by SV40 suppresses expression of membrane dipeptidase

Membrane dipeptidase (MDP) is a zinc metalloenzyme located in the lungs and on the brush border membranes of the kidney and intestine. The gene for MDP (also termed DPEP1) is both frequently lost in Wilm's tumours and is located on human chromosome 16q24.3, a region of the genome known to contain a tumour suppressor gene(s). We now report on the regulation of MDP gene expression in normal and transformed cells. MDP enzyme activity and mRNA was detected in primary baby rat kidney (BRK) cells maintained in culture for up to 4 weeks. In contrast all stable transformed cell lines that were tested, derived either by transformation with the DNA tumour viruses SV40 or adenovirus, or in human tumour cell lines, contained very low levels of or no detectable MDP mRNA or enzyme activity. In BRK cells transformed by the temperature-sensitive tsA58 mutant of SV40 T antigen, MDP activity was not detectable, in cell lines grown at the permissive temperature (33 degrees C) but after 5-14 days of incubation at the non-permissive temperature (39.5 degrees C), MDP protein and enzyme activity could be readily detected. Taken together, these results indicate that MDP expression is characteristic of differentiated kidney epithelial cells and is down-regulated in proliferating, transformed cells.

SV40 DNA in human osteosarcomas shows sequence variation among T-antigen genes

Authentic simian virus 40 (SV40) has been detected in association with human choroid plexus and ependymoma tumors, and SV40-like DNA sequences have been found in some human osteosarcomas. We report here an analysis of human osteosarcoma samples for the presence of SV40 DNA using PCR and primers directed at 4 distinct sites of the SV40 genome, coupled with sequence analysis. Authentic SV40 DNA sequences were detected in 5 of 10 osteosarcoma tumor samples. The SV40 regulatory region in each case was identical and of archetypal length (non-duplicated enhancer), as is usually found in natural isolates of SV40 from monkeys and in human brain tumors. A section of the gene that encodes a viral late gene product (VP1) was detected in 5 of 10 tumors and had an exact match with the known sequence of SV40. Two separated segments of the large T-antigen (T-ag) gene were found in the same 5 tumors. Analysis of the DNA sequences encoding the T-ag carboxy terminus revealed sequence variation among the tumors, as observed previously in viral DNA associated with human brain tumors. There does not appear to be a preferential association of a T-ag variable domain sequence with a given tumor type. No sequences from the regulatory region of human polyomaviruses JCV and BKV were detected in the bone tumors. We also noted less efficient recovery of SV40 DNA from tumor samples fixed in paraffin as compared to frozen tumors. Our results confirm the presence of SV40 DNA in human bone tumors and, based on the sequence variation observed for the carboxy terminus of the T-ag gene, suggest that there is not a specific SV40 strain associated with human osteosarcomas.

Loss of T-antigen sequences allows SV40-transformed human cells in crisis to acquire a senescent-like phenotype

Normal human cells transfected with SV40 DNA exhibit an extended proliferative potential compared with controls, but they eventually enter a phase known as "crisis." During crisis, extensive cell death occurs and the cells exhibit some gene expression changes similar to senescent cells. This article presents results which indicate that crisis most likely depends on expression of the viral gene T-antigen. We have obtained a unique subpopulation of cells that have deleted the T-antigen gene and, rather than dying as cells do in crisis, remain viable and exhibit some senescent-like characteristics. We also found that the SV40 promoter is poorly expressed in senescent versus young cells. We hypothesize that decreased activity of the viral promoter may result in decreased expression of T-antigen, which is challenged by over-expression of the cell cycle inhibitors such as p21Sdi1. Conflicting signals to proceed/halt cells cycle progression result in the cell death associated with crisis.

Multimerization of polyomavirus middle-T antigen

The oncogenic protein of polyomavirus, middle-T antigen, associated with cell membranes and interacts with a variety of cellular proteins involved in mitogenic signalling. Middle-T antigen may therefore mimic the function of cellular tyrosine kinase growth factor receptors, like the platelet-derived growth factor or epidermal growth factor receptor. Growth factor receptor signalling is initiated upon the binding of a ligand to the extracellular domain of the receptor. This results in activation of the intracellular tyrosine kinase domain of the receptor, followed by receptor phosphorylation, presumably as a consequence of dimerization of two receptor molecules. Similar to middle-T antigen, phosphorylation of growth factor receptors leads to recruitment of cellular signalling molecules downstream in the signalling cascade. In this study, we investigated whether middle-T antigen, similar to tyrosine kinase growth factor receptors, is able to form dimeric signalling complexes. We found that association with cellular membranes was a prerequisite for multimerization, most likely dimer formation. A chimeric middle-T antigen carrying the membrane-targeting sequence of the vesicular stomatitis virus G protein instead of the authentic polyomavirus sequence still dimerized. However, mutants of middle-T antigen unable to associate with 14-3-3 proteins, like d18 and S257A, did not form dimers but were still oncogenic. This indicates that both membrane association and binding of 14-3-3 are necessary for dimer formation of middle-T antigen but that only the former is essential for cell transformation.

Transformation and tumorigenic properties of a mutant polyomavirus containing a middle T antigen defective in Shc binding

Polyomavirus middle T antigen is phosphorylated on several tyrosine residues which act as binding sites for cellular proteins, including phosphatidylinositol 3-kinase, Shc, and phospholipase C-gamma. In this report we describe the transforming properties and tumor-inducing ability of a polyomavirus that contains a single-site mutation in middle T antigen which changes a tyrosine residue at amino acid position 250 to serine. This mutation disrupts the association of middle T with the transforming protein Shc. The mutant virus is weakly transforming, inducing foci which are smaller and of different morphology than those of the wild type. Although the virus induced tumors in close to 100% of inoculated mice, the spectrum of tumors and their morphology were altered compared to those of wild-type virus. The mutant virus induced a reduced frequency of kidney and thymic tumors. Both the mammary gland and the thymic tumors that were induced were histologically distinct from those induced by wild-type polyomavirus. These results demonstrate that the signal transduction pathway that is deregulated by the middle T-Shc association is important for full transformation of cells in culture and for tumor induction in some target tissues in the mouse-polyomavirus system.

Cyclin-dependent kinase regulation of the replication functions of polyomavirus large T antigen

The amino-terminal portion of polyomavirus (Py) large T antigen (T Ag) contains two phosphorylation sites, at T187 and T278, which are potential substrates for cyclin-dependent kinases (CDKs). Our experiments were designed to test whether either or both of these sites are involved in the origin DNA (ori DNA) replication function of Py T Ag. Mutations were generated in Py T Ag whereby either or both threonines were replaced with alanine, generating T187A, T278A, and double-mutants (DM [T187A T278A]) mutant T Ags. We found that the Py ori DNA replication functions of T278A and DM, but not T187A, mutant T Ags were abolished both in vivo and in vitro. Consistent with this finding, it was shown that the ori DNA binding and unwinding activities of mutant T278A Py T Ag were greatly impaired. Moreover, whereas wild-type Py T Ag is an efficient substrate for phosphorylation by cyclin A-CDK2 and cyclin B-cdc2 complexes, it is phosphorylated poorly by a cyclin E-CDK2 complex. In contrast to mutant T187A, which behaved similarly to the wild-type protein, T278A was only weakly phosphorylated by cyclin B-cdc2. These data thus suggest that T278 is an important site on Py T Ag for phosphorylation by CDKs and that loss of this site leads to its various defects in mediating ori DNA replication. S- and G2-phase-specific CDKs, but not a G1-specific CDK, can phosphorylate wild-type T Ag, which suggests yet another reason why DNA tumor viruses require actively cycling host cells.

Phosphorylation sites in polyomavirus large T antigen that regulate its function in viral, but not cellular, DNA synthesis

Polyomavirus large T antigen (large T) is a highly phosphorylated protein that can be separated by proteolysis into two domains that have independent function. A cluster of phosphorylation sites was found in the protease-sensitive region connecting the N-terminal and C-terminal domains. Edman degradation of 32P-labeled protein identified serines 267, 271, and 274 and threonine 278 as sites of phosphorylation. Analysis of site-directed mutants confirmed directly that residues 271, 274, and 278 were phosphorylated. Threonine 278, shown here to be phosphorylated by cyclin/cyclin-dependent kinase activity, is required for viral DNA replication in either the full-length large T or C-terminal domain context. The serine phosphorylations are unimportant in the C-terminal domain context even though their mutations activates viral DNA replication in full-length large T. This finding suggests that these sites may function in relating the two domains to each other. Although the phosphorylation sites were involved in viral DNA replication, none was important for the ability of large T to drive cellular DNA replication as measured by bromodeoxyuridine incorporation, and they did not affect large T interactions with the Rb tumor suppressor family.

Specific chromosomal changes in albumin simian virus 40 T antigen transgenic rat liver neoplasms

Hepatocytes isolated from 3-month-old female rats bearing the albumin promoter/enhancer SV40 T antigen construct as a transgene demonstrated a 20% aneuploidy rate and a significant duplication of chromosome 1. Other chromosome changes were observed but were not statistically significant. At this time in the development of hepatic lesions, only a relatively small number of microscopic altered hepatic foci could be noted. By contrast, hepatocytes isolated from the age-matched nontransgenic controls demonstrated only 1% aneuploidy. One hundred % of the metaphase spreads isolated from hepatocellular neoplasms in transgenic rats were aneuploid. Although there were many random changes, 70% of the neoplastic cells demonstrated an amplification of all or portions of chromosome 1q. Only 2% of the neoplastic cells had both a trisomy and a duplication. The smallest region of chromosome 1 that was duplicated was that between bands q3.7 and q4.3. A loss of chromosome 3 was detected in 50% of the neoplasms, as well as a loss of chromosome 6 in 72% of the neoplastic cells. The carcinomas with the highest proliferation rate had also lost at least one copy of chromosome 15 in 70% of the cells. The loss of chromosomes 3, 6, and 15 indicates that these regions may harbor one or more tumor suppressor genes. The amplification of a specific region of chromosome 1 is thus the first karyotypic alteration that can be identified in hepatocytes from livers from which hepatic neoplasms will arise. This indicates that expression or repression of one or more genes in this region may confer a growth advantage to preneoplastic hepatocytes, facilitating their transit to the neoplastic state in the stage of progression. Changes in chromosomes 3, 6, and 15 that occur subsequent to duplication of the q3.7-q4.3 region of chromosome 1 are changes possibly reflecting alteration of tumor suppressor genes with further enhancement of neoplastic growth.

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.

Expression of SV40 large T antigen stimulates reversion of a chromosomal gene duplication in human cells

Transformation of human cells is characterized by altered cell morphology, frequent karyotypic abnormalities, reduced dependence on growth factors and substrate, and rare "immortalization"-clonal acquisition of unlimited proliferative potential. We previously reported a marked increase in DNA rearrangements, arising between two duplicated segments in a transfected plasmid substrate, for five immortal human cell lines relative to three normal fibroblast strains [Finn et al. (1989) Mol. Cell. Biol. 9, 4009-4017]. We have now assessed reversion of a 14-kilobase-pair duplication within the hypoxanthine phosphoribosyl transferase (HPRT) gene locus, in a fibroblast strain during its normal replicative lifespan and after stable transformation with SV40 large-T antigen. Revertants, selected under HPRT-dependent growth conditions immediately after purging preexisting HPRT+ cells, were confirmed as HPRT+ by hypoxanthine incorporation and 6-thioguanine sensitivity. Southern blot analyses indicate loss from most revertant clones of a restriction fragment representing the duplicated HPRT region, as predicted for homologous recombination between the 14-kilobase-pair repeats. Amplification of a subregion of HPRT mRNA implicated deletion of duplicated exons in 93% of revertant colonies. Reversion to HPRT+ was unaltered during the normal in vitro lifespan of these cells, but increased in 9 clones stably transformed with large-T antigen (mean = 3.8-fold; each P < 10(-5)). Stimulation of HPRT-reversion is abrogated in a variety of T-antigen mutants, and depends on continued induction of T antigen by glucocorticoid in two clones tested 10-30 doublings before replicative senescence. Since no immortal subclones arose from these clones, elevated reversion must precede immortalization. Increased DNA rearrangements, in cells expressing T-antigen, could facilitate the rare concurrence of multiple mutations necessary for immortalization.