Fernanda Martini

SV40 replication in human mesothelial cells induces HGF/Met receptor activation: A model for viral-related carcinogenesis of human malignant mesothelioma

Recent studies suggested that simian virus 40 (SV40) may cause malignant mesothelioma, although the pathogenic mechanism is unclear. We found that in SV40-positive malignant mesothelioma cells, the hepatocyte growth factor (HGF) receptor (Met) was activated. In human mesothelial cells (HMC) transfected with full-length SV40 DNA (SV40-HMC), Met receptor activation was associated with S-phase entry, acquisition of a fibroblastoid morphology, and the assembly of viral particles. Coculture experiments revealed the ability of SV40-HMC to infect permissive monkey cells (CV-1), HMC, and murine BNL CL cells. Cocultured human and murine SV40-positive cells expressed HGF, showed Met tyrosine phosphorylation and S-phase entry, and acquired a spindle-shaped morphology (spBNL), whereas CV-1 cells were lysed. Cocultured HMC inherited from SV40-HMC the infectivity, as they induced lysis in cocultured CV-1 cells. Treatment with suramin or HGF-blocking antibodies inhibited Met tyrosine phosphorylation in all large T antigen (Tag)-positive cells and reverted the spindle-shaped morphology of spBNL. This finding indicated that Met activation and subsequent biological effects were mediated by an autocrine HGF circuit. This, in turn, was causally related to Tag expression, being induced by transfection with the SV40 early region alone. Our findings suggest that when SV40 infects HMC it causes Met activation via an autocrine loop. Furthermore, SV40 replicates in HMC and infects the adjacent HMC, inducing an HGF-dependent Met activation and cell-cycle progression into S phase. This may explain how a limited number of SV40-positive cells may be sufficient to direct noninfected HMC toward malignant transformation.

BK and JC Human Polyomaviruses and Simian Virus 40: Natural History of Infection in Humans, Experimental Oncogenicity, and Association with Human Tumors

Publisher Summary Several viruses are ubiquitous in the human population and produce a persistent or latent infection in humans. Some of them—such as human polyomaviruses BK (BKV) and JC (JCV)—are oncogenic in experimental systems and are associated with human tumors. This chapter considers the general properties of the human polyomaviruses BK and JC, the characteristics of the latent infection and of the ubiquitous state of these viruses in humans, their transforming capacity in vitro , their oncogenicity in experimental animals, and their possible etiologic role in human tumors are also evaluated. It is noted that the classic Kochs postulates cannot be applied to latent viruses. New rules are considered for these viruses to establish their oncogenic role. It is reported that BKV fulfills these criteria, suggesting that BKV may cooperate, under peculiar conditions, as a cofactor in the development or progression of human tumors. BKV oncogenicity is revealed by cooperating events, such as oncogene activation, loss of tumor suppressor genes, or rearrangements of the viral genome, inducing proliferation of clonal neoplastic cells in a population of latently BKV-infected cells.

Oncogenic transformation by BK virus and association with human tumors.

BK virus (BKV), a human polyomavirus closely related to JC virus and Simian Virus 40, is ubiquitous in human populations worldwide. After primary infection, BKV establishes a lifelong latent infection in many organs. BKV transforms rodent cells to the neoplastic phenotype and is highly oncogenic in rodents. This review considers the oncogenic potential of BKV in humans and its possible involvement in human tumors. BKV sequences and T antigen (Tag) are detected in several types of human neoplasms, although the viral load is generally low, with less than one copy of the viral genome per cell. The possible causative role of BKV in human oncogenesis rests on the ability of BKV Tag to inactivate the functions of tumor suppressor proteins p53 and pRB family as well as on its ability to induce chromosomal aberrations in human cells. A ‘hit and run’ mechanism and secretion of paracrine growth factors by BKV Tag-positive cells, recruiting into proliferation neighboring and distant cells, are discussed as possible BKV pathogenic elements in human oncogenesis.

Simian-virus-40 footprints in human lymphoproliferative disorders of HIV- and HIV+ patients

SV40 sequences were investigated by PCR DNA amplification followed by filter hybridization in a series of human lymphoproliferative disorders obtained from human‐immunodeficiency‐virus (HIV)‐seronegative and HIV‐infected patients. Our PCR and filter‐hybridization conditions enabled us to detect SV40 sequences in the range of 10−4 to 10−2 genome equivalents per cell. In non‐Hodgkins lymphomas (NHL) from HIV− patients, SV40 footprints were found in 11 out of 79 (13.9%) samples, while in NHL from HIV+ patients SV40 DNA sequences were detected in 2/16 (12.5%). In Hodgkins disease (HD), SV40 sequences were found in 7/43 (16.3%) and 1/12 (8.3%) in HIV− and HIV+ patients respectively. A slightly higher prevalence of SV40 footprints was observed in reactive lympho‐adenopathies both in HIV− (3/9, 33.3%) and in HIV+ (6/17, 35.3%) patients. Sequence analysis of 2 NHL and 2 HD DNA samples established that the amplified PCR products belong to the SV40 sequences. SV40 prevalence and load were similar in samples from HIV‐seronegative and HIV‐infected individuals, suggesting that SV40 probably does not undergo strong reactivation phenomena in the context of HIV‐related immunosuppression. Moreover, the large T‐antigen(Tag) expression was detected by immunohistochemistry in 5/18 SV40‐DNA‐positive samples analyzed; however, few tumor cells (<1%) in 3/5 samples displayed positivity for SV40 Tag, while this viral oncoprotein was revealed in several reactive histiocytes present in all 5 SV40‐positive tissues. These results suggest that the lymphoid tissue could represent a reservoir for SV40 and may constitute the first step in understanding whether this DNA tumor polyomavirus has a role in the pathogenesis of human lymphoproliferative disorders. Int. J. Cancer 78:669–674, 1998.

Different simian virus 40 genomic regions and sequences homologous with SV40 large T antigen in DNA of human brain and bone tumors and of leukocytes from blood donors

Many studies found only a small fragment of the large T‐antigen coding sequences in human tumors, raising doubts on authenticity of SV40 sequences detected in these samples.

BK Virus, JC Virus and Simian Virus 40 Infection in Humans, and Association with Human Tumors

BK virus (BKV), JC virus (JCV) and Simian Virus 40 (SV40) are polyomaviruses, highly homologous at the DNA and protein levels. While the human polyomaviruses BKV and JCV are ubiquitous in humans, SV40 is a simian virus which was introduced in the human population, between 1955 and 1963, by contaminated poliovaccines produced in SV40-infected monkey cells. Alternatively, SV40 or an SV40-like virus may have entered the human population before anti-poliovirus vaccination. Epidemiological evidence suggests that SV40 is now contagiously transmitted in the human population by horizontal infection, independently from the earlier contaminated poliovaccines. All three polyomaviruses transform rodent and human cells and are oncogenic in rodents. JCV induces tumors also in experimentally inoculated monkeys. Transformation and oncogenicity induced by BKV, JCV and SV40 are due to the two viral oncoproteins, the large T antigen (Tag) and the small t antigen (tag), encoded in the early region of the viral genome. Both proteins display several functions. The large Tag acts mainly by blocking the functions of p53 and pRB family tumor suppressor proteins and by inducing in host cells chromosomal aberrations and instability. The principal effect of small tag is to bind the catalytic and regulatory subunits of the protein phosphatase PP2A, thereby constitutively activating the β-catenin pathway which drives cells into proliferation. All three polyomaviruses are associated with specific human tumor types which correspond to the tumors induced by experimental inoculation of the three viruses in rodents and to the neoplasms arising in mice transgenic for the polyomavirus early region gene directed by the native viral early promoter-enhancer. Human tumors associated with BKV. JCV and SV40 contain viral DNA, generally episomic, express viral RNA and are positive for large Tag by immunohistochemistry. The low copy number of viral genomes in human tumors suggests that polyomaviruses may transform human cells by a “hit and run” mechanism. An autocrine-paracrine effect, involving secretion of growth factors by cells expressing polyomavirus Tag, may be responsible for recruiting to proliferation Tag-negative cells in polyomavirus-associated human tumors.

MicroRNAs dysregulation in human malignant pleural mesothelioma.

Background:Malignant pleural mesothelioma (MPM) is a rare but aggressive asbestos-related cancer that develops by mesothelial cell transformation. At present, there are no effective therapies for MPM. Great efforts have been made in finding specific markers/mechanisms for MPM onset, including studies into microRNAs (miRNAs). Recent studies have shown the differential expression of mature miRNAs in several human cancers, suggesting their potential role as oncogenes or tumor suppressor genes. Methods:In this study, we investigated miRNAs profile in five human normal pleural mesothelial short-term cell cultures (HMCs) and five MPMs, with microarray approach. These results were confirmed by real-time quantitative reverse-transcriptase polymerase chain reaction and Western blotting. Results:A comparative analysis of miRNA expression in MPM and HMCs was carried out. Microarray profiling showed different miRNA expression between MPM and HMCs. Specifically, members of the oncomiRNA miR 17-92 cluster and its paralogs, namely miR 17-5p, 18a, 19b, 20a, 20b, 25, 92, 106a, 106b, were markedly upregulated. Besides, in our investigation, additional miRNAs, such as miR-7, miR-182, miR-214, and miR-497 were found to be dysregulated in MPM. Conclusions:These data are in agreement with results that have previously been reported on dysregulated miRNAs for other solid human tumors. Moreover, in our investigation, additional miRNAs were found to be dysregulated in MPM. Interestingly, gene products that regulate the cell cycle are targets and predicted targets for these miRNAs. Our data suggest that specific miRNAs could be key players in MPM development/progression. In addition, some of these miRNAs may represent MPM markers and potential targets for new therapeutic approaches.

Merkel cell polyomavirus DNA sequences in the buffy coats of healthy blood donors

Merkel cell polyomavirus (MCPyV), a DNA tumor virus, has been found to be associated with Merkel cell carcinoma and chronic lymphocytic leukemia. MCPyV sequences have also been detected in various normal tissues in tumor-affected patients. Immunologic studies have detected MCPyV antibodies in as many as 80% of healthy blood donors. This high seroprevalence suggests that MCPyV infection is widespread in humans. In our study, buffy coats, which were examined for MCPyV DNA Tag sequences, showed a prevalence of 22%. Viral DNA load was revealed in blood samples from 10 to 100 molecules/100 000 cells. DNA sequencing confirmed that polymerase chain reaction amplicons belong to the MCPyV strain, MKL-1. To interpret the putative role of MCPyV in chronic lymphocytic leukemia, we may infer that, during a long period of viral persistence in blood cells, this DNA tumor virus may generate mutants, which are able to participate as cofactors in the multistep process of cell transformation.

Simian virus 40 in humans

Simian virus 40 (SV40) is a monkey virus that was administered to human populations by contaminated vaccines which were produced in SV40 naturally infected monkey cells.Recent molecular biology and epidemiological studies suggest that SV40 may be contagiously transmitted in humans by horizontal infection, independently from the earlier administration of SV40-contaminated vaccines.SV40 footprints in humans have been found associated at high prevalence with specific tumor types such as brain and bone tumors, mesotheliomas and lymphomas and with kidney diseases, and at lower prevalence in blood samples from healthy donors.Contrasting reports appeared in the literature on the circulation of SV40 in humans by contagious transmission and its association, as a possible etiologic cofactor, with specific human tumors. As a consequence of the conflicting results, a considerable debate has developed in the scientific community. In the present review we consider the main results obtained by different groups investigating SV40 sequences in human tumors and in blood specimens, the putative role of SV40 in the onset/progression of specific human tumors, and comment on the hypotheses arising from these data.

Large T antigen coding sequences of two DNA tumor viruses, BK and SV40, and nonrandom chromosome changes in two glioblastoma cell lines

The T antigen (TAg) coding sequences of two DNA tumor viruses, BKV and SV40, were detected by Polymerase Chain Reaction (PCR) amplification followed by Southern-blot hybridization in two human glioblastoma multiforme derived cell lines. RT-PCR analysis indicated that these two TAg coding sequences were expressed in both tumor cell lines carrying the viral early region DNAs. Moreover, analytical polyacrylamide gel electrophoresis (PAGE) and DNA sequence analyses showed that the amplified PCR products are indistinguishable from the TAg coding sequences of BKV and SV40 wildtype strains. Cytogenetic study performed in the two cell lines showed unbalanced changes, mainly gains of chromosomes 3p, 5, 6, 7, and 19 and losses of chromosomes 3, 3q, 16, 9p22-->pter, 18, and 20. Excess of chromosomes 6 and 7 are common to the two cell lines. The putative role of the TAg of the two DNA tumor viruses in transformation and karyotype changes is discussed.