Cytotoxic T-Lymphocyte Epitope Immunodominance in the Control of Choroid Plexus Tumors in Simian Virus 40 Large T Antigen Transgenic Mice

The simian virus 40 (SV40) large tumor antigen (Tag) is a virus-encoded oncoprotein which is the target of a strong cytotoxic T-lymphocyte (CTL) response. Three immunodominant H-2(b)-restricted epitopes, designated epitopes I, II/III, and IV, have been defined. We investigated whether induction of CTLs directed against these Tag epitopes might control Tag-induced tumors in SV11(+) (H-2(b)) mice. SV11(+) mice develop spontaneous tumors of the choroid plexus due to expression of SV40 Tag as a transgene. We demonstrate that SV11(+) mice are functionally tolerant to the immunodominant Tag CTL epitopes. CTLs specific for the H-2Kb-restricted Tag epitope IV were induced in SV11(+) mice following adoptive transfer with unprimed C57BL/6 spleen cells and immunization with recombinant vaccinia viruses expressing either full-length Tag or the H-2Kb-restricted epitope IV as a minigene. In addition, irradiation of SV11(+) mice prior to adoptive transfer with unprimed C57BL/6 spleen cells led to the priming of epitope IV-specific CTLs by the endogenous Tag. Induction of epitope IV-specific CTLs in SV11(+) mice by either approach correlated with increased life span and control of the choroid plexus tumor progression, indicating that CTLs specific for the immunodominant Tag epitope IV control the progressive growth of spontaneous tumors induced by this DNA virus oncogene in transgenic mice.     

VIP receptor antagonists inhibit mammary carcinogenesis in C3(1)SV40T antigen mice

The effects of a vasoactive intestinal peptide (VIP) receptor antagonist on mammary carcinogenesis were investigated using the C3(1)SV40T antigen (ag) mice. Ten microg/day VIPhybrid (VIPhyb) administered daily subcutaneously increased significantly the survival of C3(1)SV40Tag mice. At 5.2 months, VIPhyb significantly reduced the mammary tumor burden in C3(1)SV40Tag mice relative to control animals. 125I-VIP bound with high affinity to mouse mammary tumor homogenate. Because (Lys15, Arg16, Leu27)VIP1-7GRF8-27 (VPAC1 selective) but not Ro25-1553 (VPAC2 selective) inhibited specific 125I-VIP binding to mammary tumor membranes with high affinity, VPAC1 receptors predominate. By RT-PCR, VPAC1 receptor mRNA was detected in mammary tumors. By Western blot, a major 60 Kdalton band was detected in mammary tumor extracts using VPAC1 receptor antisera. By immunocytochemistry, VPAC1-R immunostaining was detected in the cytosol and plasma membrane but not the nucleus of fixed mammary tumor tissue. Using laser capture microdissected tumor cells and surface enhanced laser desorption/ionization (SELDI) techniques on mammary tumor cells, the proteomic profile was altered in mice treated with VIPhyb. Because VPAC1 receptor antagonists increase the survival and reduce the tumor burden in C3(1)SV40Tag mice, they may function as chemopreventive agents in mammary cancer.     

Fc gamma receptors play a dominant role in protective tumor immunity against a virus-encoded tumor-specific antigen in a murine model of experimental pulmonary metastases

Simian virus 40 (SV40) large tumor antigen (Tag) represents a virus-encoded tumor-specific antigen expressed in many types of human cancers and a potential immunologic target for antitumor responses. Fc receptors are important mediators in the regulation and execution of host effector mechanisms against conditions including infectious diseases, autoimmunity, and cancer. By examining tumor protection in SV40 Tag-immunized wild-type BALB/c mice using an experimental pulmonary metastasis model, we attempted to address whether engagement of the immunoglobulin G Fc receptors (FcgammaRs) on effector cells is necessary to mediate antitumor responses. All immunized BALB/c FcgammaR-/- knockout mice developed anti-SV40 Tag antibody responses prior to experimental challenge with a tumorigenic cell line expressing SV40 Tag. However, all mice deficient in the activating FcgammaRI (CD64) and FcgammaRIII (CD16) were unable to mount protective immunologic responses against tumor challenge and developed tumor lung foci. In contrast, mice lacking the inhibitory receptor FcgammaRII (CD32) demonstrated resistance to tumorigenesis. These results underscore the importance of effector cell populations expressing FcgammaRI/III within this murine tumor model system, and along with the production of a specific humoral immune response, antibody-dependent cell-mediated cytotoxicity (ADCC) may be a functioning mechanism of tumor clearance. Additionally, these data demonstrate the potential utility of ADCC as a viable approach for targeting vaccination strategies that promote FcgammaRI/III scavenging pathways against cancer.     

Clonal deletion of simian virus 40 large T antigen-specific T cells in the transgenic adenocarcinoma of mouse prostate mice: an important role for clonal deletion in shaping the repertoire of T cells specific for antigens overexpressed in solid tumors

In addition to their overexpression in cancer cells, most of the tumor-associated Ags are expressed at low but detectable levels in normal tissues. It is not clear whether the repertoire of T cells specific for unmutated tumor Ags is shaped by negative selection during T cell development. The transgenic adenocarcinoma of mouse prostate (TRAMP) model is transgenic for the SV40 large T Ag (Tag) under the control of the rat probasin regulatory elements. Although it has been established that T lymphocytes from TRAMP mice are tolerant to SV40 Tag, the mechanism of the tolerance is largely unknown. To examine whether the T cell clonal deletion is responsible for the tolerance, we crossed the TRAMP mice with mice transgenic for a rearranged TCR specific for SV40 Tag presented by the H-2K(k). Double transgenic TRAMP/TCR mice showed profound thymic deletion of SV40 Tag-reactive T cells, including a 6- to 10-fold reduction in the total thymocyte numbers and a >50-fold reduction in phenotypically mature T cells. Consistent with this finding, we observed that the SV40 Tag and endogenous mouse probasin genes are expressed at low levels in the thymus. These results demonstrate that clonal deletion is a major mechanism for tolerance to Ags previously regarded as prostate-specific, and provide direct evidence that the T cell repertoire specific for an unmutated tumor Ag can be shaped by clonal deletion in the thymus.     

SV40 Tag-specific cytotoxic T lymphocytes generated from the peripheral blood of malignant pleural mesothelioma patients

Malignant pleural mesothelioma (MPM) is an aggressive cancer, with survival of less than one year following diagnosis and treatment with current protocols. Recent studies have demonstrated the presence of the simian virus 40 (SV40)-like, large tumor antigen (Tag) in nearly 60% of MPMs. SV40 Tag is a viral-encoded tumor-specific antigen, and thus a potential target for the induction of anti-tumor immunity and the development of therapeutic vaccines. We describe here evidence for the existence of SV40 Tag-specific immune responses in patients with MPM whose tumors express Tag. Humoral immunity was demonstrated by the detection of IgG titers against Tag in serum samples from 1/3 of patients examined. CTLs were generated from the peripheral blood of an HLA-A2(+) MPM patient with a synthetic peptide representing an HLA-A2 binding epitope in SV40 Tag. The CTLs demonstrated epitope fine specificity, in that other peptides from SV40 Tag and a peptide from influenza virus were not recognized in the context of HLA-A2. Moreover, the CTLs were capable of recognizing mesothelioma tumor cells that expressed SV40 Tag, in an MHC class I restricted manner.     

Expression and immune recognition of SV40 Tag in transgenic mice that develop metastatic osteosarcomas

Mature adult mice of the C57BL/6-TgN(Amy1TAg)501Knw transgenic mouse lineage, 501, containing a liver -amylase promoted-SV40 Tag hybrid gene, routinely develop SV40 Tag-induced metastatic osteosarcomas. This form of -amylase was known to be expressed in the liver, salivary glands, pancreas, and fat. Cells in the normal rib adjacent to the periosteum also express -amylase suggesting that transgene expression is correctly targeted to generate osteosarcomas. 501 mice express SV40 Tag in the salivary glands but do not develop abnormalities in these organs by the time of their death from SV40-induced osteosarcomas. Mice of the C57BL/6 strain make a strong and effective anti-tumor immune response to SV40 Tag immunization. However, immunization of 501 mice with SV40 Tag early in life does not alter or prevent SV40 Tag-induced osteosarcomagenesis. 501 mice mount a significantly less effective cytotoxic T-lymphocyte response following SV40 Tag immunization while 501 osteosarcoma-derived cells are fully susceptible to SV40 Tag-specific T-cell lysis. This suggests that partial tolerance, not loss of antigen presentation by tumor cells, characterizes this mouse model of endogenous bone tumor development. To determine whether the immune recognition of endogenous SV40 Tag could influence tumorigenesis, the metastatic potential and time of death from tumor was investigated in CD4-null mutant 501 mice and -2 microglobulin-null mutant 501 mice. The size and number of metastases in these strains and longevity of these strains varied. We suggest that components of both the innate and adaptive immune response control tumor appearance and progression.     

CD4+ T lymphocytes are critical mediators of tumor immunity to simian virus 40 large tumor antigen induced by vaccination with plasmid DNA

A mechanistic analysis of tumor immunity directed toward the viral oncoprotein simian virus 40 (SV40) large tumor antigen (Tag) has previously been described by our laboratory for scenarios of recombinant Tag immunization in BALB/c mice. In the present study, we performed a preliminary characterization of the immune components necessary for systemic tumor immunity induced upon immunization with plasmid DNA encoding SV40 Tag as a transgene (pCMV-Tag). Antibody responses to SV40 Tag were observed via indirect enzyme-linked immunosorbent assay following three intramuscular (i.m.) injections of pCMV-Tag and were typified by a mixed Th1/Th2 response. Complete tumor immunity within a murine model of pulmonary metastasis was achieved upon two i.m. injections of pCMV-Tag, as assessed by examination of tumor foci in mouse lungs, without a detectable antibody response to SV40 Tag. Induction-phase and effector-phase depletions of T cell subsets were performed in vivo via administration of depleting rat monoclonal antibodies, and these experiments demonstrated that CD4(+) T lymphocytes are required in both phases of the adaptive immune response. Conversely, depletion of CD8(+) T lymphocytes did not impair tumor immunity in either immune phase and resulted in the premature production of antibodies to SV40 Tag. Our findings are unique in that a dominant role could be ascribed to CD4(+) T lymphocytes within a model of DNA vaccine-induced tumor immunity to Tag-expressing tumor cells. Additionally, our findings provide insight into the general mechanisms of vaccine-induced tumor immunity directed toward tumors bearing distinct tumor-associated antigens.     

Accumulation of CD8+ T cells in advanced-stage tumors and delay of disease progression following secondary immunization against an immunorecessive epitope

Self-reactive T cells that survive the process of positive and negative selection during thymocyte development represent potential effector cells against tumors that express these same self-Ags. We have previously shown that CD8+ T lymphocytes (T(CD8)) specific for an immunorecessive epitope, designated epitope V, from the SV40 large T Ag (Tag) escape thymic deletion in line SV11 Tag-transgenic mice. In contrast, these mice are tolerant to the three most dominant Tag epitopes. The majority of the residual epitope V-specific T(CD8) have a low avidity for the target epitope, but a prime/boost regimen can expand higher avidity clones in vivo. Whether higher avidity T(CD8) targeting this epitope are affected by Tag-expressing tumors in the periphery or can be recruited for control of tumor progression remains unknown. In the current study, we determined the fate of naive TCR-transgenic T(CD8) specific for Tag epitope V (TCR-V cells) following transfer into SV11 mice bearing advanced-stage choroid plexus tumors. The results indicate that TCR-V cells are rapidly triggered by the endogenous Tag and acquire effector function, but fail to accumulate within the tumors. Primary immunization enhanced TCR-V cell frequency in the periphery and promoted entry into the brain, but a subsequent booster immunization caused a dramatic accumulation of TCR-V T cells within the tumors and inhibited tumor progression. These results indicate that epitope V provides a target for CD8+ T cells against spontaneous tumors in vivo, and suggests that epitopes with similar properties can be harnessed for tumor immunotherapy.     

Transgenic mouse models for tumors of melanocytes and retinal pigment epithelium

Cutaneous and ocular melanomas are due to malignant transformation of neural crest-derived melanocytes. The rising incidence of this tumor in humans has stimulated experiments to devise suitable mouse models. In the past years, transgenic mouse lines have been generated using different oncogenes - Ha-ras, SV40 T antigen (Tag), ret - which develop benign lesions of melanocytes, melanoma, and/or eye tumors. Pigment cell tumors in humans, although rather rare, can also develop from the retinal pigment epithelium (RPE), a cell layer of neuroectodermal origin. We, therefore, established transgenic models for this ocular tumor. Regulated by the promoter of tyrosinase-related protein-1 (TRP-1), two oncogenes, ret and SV40 Tag, were targeted to the developing RPE in transgenic mice. The TRP-1/ret transgenic mice displayed microphthalmia and benign tumors of the RPE. Expression of SV40 T antigen (TRP-1/Tag) led to malignant tumors, which were invasive and metastasized to inguinal lymph node and spleen.     

Impaired CK1 delta activity attenuates SV40-induced cellular transformation in vitro and mouse mammary carcinogenesis in vivo

Simian virus 40 (SV40) is a powerful tool to study cellular transformation in vitro, as well as tumor development and progression in vivo. Various cellular kinases, among them members of the CK1 family, play an important role in modulating the transforming activity of SV40, including the transforming activity of T-Ag, the major transforming protein of SV40, itself. Here we characterized the effects of mutant CK1δ variants with impaired kinase activity on SV40-induced cell transformation in vitro, and on SV40-induced mammary carcinogenesis in vivo in a transgenic/bi-transgenic mouse model. CK1δ mutants exhibited a reduced kinase activity compared to wtCK1δ in in vitro kinase assays. Molecular modeling studies suggested that mutation N172D, located within the substrate binding region, is mainly responsible for impaired mutCK1δ activity. When stably over-expressed in maximal transformed SV-52 cells, CK1δ mutants induced reversion to a minimal transformed phenotype by dominant-negative interference with endogenous wtCK1δ. To characterize the effects of CK1δ on SV40-induced mammary carcinogenesis, we generated transgenic mice expressing mutant CK1δ under the control of the whey acidic protein (WAP) gene promoter, and crossed them with SV40 transgenic WAP-T-antigen (WAP-T) mice. Both WAP-T mice as well as WAP-mutCK1δ/WAP-T bi-transgenic mice developed breast cancer. However, tumor incidence was lower and life span was significantly longer in WAP-mutCK1δ/WAP-T bi-transgenic animals. The reduced CK1δ activity did not affect early lesion formation during tumorigenesis, suggesting that impaired CK1δ activity reduces the probability for outgrowth of in situ carcinomas to invasive carcinomas. The different tumorigenic potential of SV40 in WAP-T and WAP-mutCK1δ/WAP-T tumors was also reflected by a significantly different expression of various genes known to be involved in tumor progression, specifically of those involved in wnt-signaling and DNA repair. Our data show that inactivating mutations in CK1δ impair SV40-induced cellular transformation in vitro and mouse mammary carcinogenesis in vivo.     

Role of the Innate Immune Response and Tumor Immunity Associated with Simian Virus 40 Large Tumor Antigen

We examined properties of the innate immune response against the tumor-specific antigen simian virus 40 (SV40) large tumor antigen (Tag) following experimental pulmonary metastasis in naive mice. Approximately 14 days after mKSA tumor cell challenge, expression of inflammatory mediators such as tumor necrosis factor alpha (TNF-α), interleukin-2 (IL-2), and RANTES was upregulated in splenocytes harvested from mice, as assessed by flow cytometry and antibody array assays. This response was hypothesized to activate and induce tumor-directed NK cell lysis since IL-2-stimulated NK cells mediated tumor cell destruction in vitro. The necessary function of NK cells was further validated in vivo through selected antibody depletion of NK cells, which resulted in an overwhelming lung tumor burden relative to that in animals receiving a control rabbit IgG depletion regimen. Interestingly, mice achieved increased protection from experimental pulmonary metastasis when NK cells were further activated indirectly through in vivo administration of poly(I:C), a Toll-like receptor 3 (TLR3) agonist. In a separate study, mice receiving treatments of poly(I:C) and recombinant SV40 Tag protein immunization mounted effective tumor immunity in an established experimental pulmonary metastasis setting. Initiating broad-based immunity with poly(I:C) was observed to induce a Th1 bias in the SV40 Tag antibody response that led to successful antitumor responses not observed in animals treated only with poly(I:C) or SV40 Tag. These data have direct implications for immunotherapeutic strategies incorporating methods to elicit inflammatory reactions, particularly NK cell-driven lysis, against malignant cell types that express a tumor-specific antigen such as SV40 Tag.Considerable interest has been directed toward the role innate immunity plays in reducing malignant growth and progression. Although the innate system by broad definition is not endowed with the antigen specificity and memory recall of adaptive immunity, natural killer (NK) cells are an innate effector population that shares most properties with the adaptive arm of the immune system, excluding receptor rearrangement (28). Interestingly, NK cells can be employed to directly target and destroy malignant cell types through diverse pathways that include tumor major histocompatibility complex class I (MHC-I) loss and upregulation of stress-inducible protein ligands for the NK cell activating receptor NKG2D (24, 29). Much effort is under way in human clinical trials to manipulate NK cell properties for directed therapies against cancer (13, 29).One strategy in eliciting innate immunity in general involves activating the Toll-like receptor (TLR) family, which are preferentially expressed by innate effectors such as NK cells, macrophages, and dendritic cells (DCs) (26). TLR ligands include a variety of pathogen-associated molecular patterns with differing downstream responses based on the cell type involved and specific TLR activated. In TLR-expressing cells, signal transduction pathways follow a MyD88-independent course to produce type I interferons (IFNs) (e.g., TLR3) or a MyD88-dependent pathway that results in the production of proinflammatory cytokines such as tumor necrosis factor alpha (TNF-α), interleukin-1 (IL-1), and IL-6 and expression of costimulatory molecules such as CD40, CD80, and CD86 (e.g., TLR4 and TLR9) (2, 12, 23, 26). In the case of TLR3, activation by poly(I:C) causes DCs and additional accessory cells to secrete type I interferons and IL-12, activating NK cells and prompting NK cell secretion of IFN-γ among other effects (14, 20). Ultimately, modulation of TLR activation results in the generation of a range of cytokines that promote inflammation, Th1 bias, and NK cell-directed killing that can be utilized in a beneficial manner for tumor treatment strategies.TLR agonist incorporation alongside vaccine strategies has resulted in promising results in mouse models of cancer (12). Indeed, the TLR7 agonist imiquimod is an effective FDA-approved topical compound used to treat superficial basal-cell carcinoma and external genital warts (9). However, to our knowledge, modulating TLR activity while also incorporating recombinant simian virus 40 (SV40) large tumor antigen (Tag) protein immunizations in a therapeutic tumor setting has not been previously reported. SV40 Tag is a clinically relevant tumor-specific antigen that has been shown to be expressed by a number of human malignancies, including malignant pleural mesothelioma (MPM), and represents a potential target for immunotherapeutic strategies.Our laboratory has previously defined a unique role for antibody-dependent cell-mediated cytotoxicity (ADCC) reactions—specific against SV40 Tag—promoting cytotoxic T-lymphocyte (CTL) activity in response to neoantigens through cross-presentation of tumor cell debris in a model of experimental pulmonary metastasis (16, 17). In this report, we analyze the role of innate immunity in mediating tumor cell lysis during the early course of tumorigenesis in the absence of vaccination. Overall, we find that activated NK cells are necessary effector cells in achieving antitumor reactions and providing partial tumor immunity during the onset of tumorigenesis and that these functioning NK cells are likely activated in vivo due to inflammation as a result of tumor growth and progression. The burden of tumor challenge could be further reduced in naive animals with the indirect activation of NK cells using poly(I:C) as a TLR3 agonist prior to and during malignant dissemination. Interestingly, in an established pulmonary tumor setting, therapeutic treatment of mice with poly(I:C) and recombinant SV40 Tag resulted in enhanced protection that was not observed using poly(I:C) or SV40 Tag alone. One effect of instituting poly(I:C) treatment alongside SV40 Tag immunizations was a Th1 skewing of the SV40 Tag IgG antibody response that correlated with therapeutic tumor protection.Our results have direct implications for the prevention and treatment of malignancies, such as MPM, that express the SV40 Tag oncoprotein. Combining specific aspects of innate and adaptive immunity by targeting both NK cells and humoral activity against SV40 Tag, respectively, represents a novel and clinically significant immunotherapeutic strategy for potential use in patients.     

Tet-on诱导表达c-myc和SV40Tag的转基因小鼠肿瘤模型

目的研究Tet-on诱导表达c-myc和SV40Tag小鼠肿瘤模型的肿瘤发生和基因表达情况,探讨c-myc基因的作用。方法用pTRE2-c-myc单阳性转基因小鼠和Tet-on、pTRE2-SV40Tag双阳性转基因小鼠交配,后代检测得到Tet-onp、TRE2-SV40Tag、pTRE2-c-myc三阳性转基因小鼠,经强力霉素诱导一段时间以后,观察肿瘤的发生;通过RT-PCR、病理组织切片和磁共振等方法对肿瘤的发生部位和时相进行研究。结果Tet-on、pTRE2-SV40Tag、pTRE2-c-myc三阳性转基因小鼠①经诱导后发生肿瘤,且发瘤率和发瘤时间高于和短于Tet-on、pTRE2-SV40Tag双阳性转基因小鼠;②c-myc和SV40Tag基因在表达部位上有所不同。结论c-myc和SV40Tag基因同时表达与SV40Tag基因单独表达时相比,肿瘤发生明显增强,提示c-myc基因与肿瘤的发生有着密切关系。     

Rapid accumulation of adoptively transferred CD8+ T cells at the tumor site is associated with long-term control of SV40 T antigen-induced tumors

We previously established a model to study CD8⁺ T cell (T_CD8)-based adoptive immunotherapy of cancer using line SV11 mice that develop choroid plexus tumors in the brain due to transgenic expression of Simian Virus 40 large T antigen (Tag). These mice are tolerant to the three dominant T_CD8-recognized Tag epitopes I, II/III and IV. However, adoptive transfer of spleen cells from naïve C57BL/6 (B6) mice prolongs SV11 survival following T_CD8 priming against the endogenous Tag epitope IV. In addition, survival of SV11 mice is dramatically increased following transfer of lymphocytes from Tag-immune B6 mice. In the current study, we compared the kinetics and magnitude of Tag-specific T_CD8 accumulation at the tumor site following adoptive transfer with a high dose of either Tag-immune or naïve donor cells or decreasing doses of Tag-immune lymphocytes. Following adoptive transfer of Tag-immune cells, epitope I- and IV-specific T_CD8 accumulated to high levels in the brain of SV11 mice, peaking at 5–7 days, while epitope IV-specific T_CD8 derived from naïve donors required three weeks to achieve peak levels. A similar delay in the peak of epitope IV-specific T_CD8 accumulation was observed when tenfold fewer Tag-immune donor cells were administered, reducing control of tumor progression. These results suggest that efficient and prolonged control of established autochthonous tumors is associated with high-level early accumulation of adoptively transferred T cells. We also provide evidence that although multiple specificities are represented in the Tag immune donor lymphocytes, epitope IV-specific donor T_CD8 play a predominant role in control of tumor growth.     

Tumor Immunity against a Simian Virus 40 Oncoprotein Requires CD8+ T Lymphocytes in the Effector Immune Phase

The required activities of CD4⁺ T cells and antibody against the virally encoded oncoprotein simian virus 40 (SV40) Tag have previously been demonstrated by our laboratory to be mediators in achieving antitumor responses and tumor protection through antibody-dependent cell-mediated cytotoxicity (ADCC). In this study, we further characterize the necessary immune cell components that lead to systemic tumor immunity within an experimental pulmonary metastatic model as the result of SV40 Tag immunization and antibody production. Immunized animals depleted of CD8⁺ T cells at the onset of experimental tumor cell challenge developed lung tumor foci and had an overall decreased survival due to lung tumor burden, suggesting a role for CD8⁺ T cells in the effector phase of the immune response. Lymphocytes and splenocytes harvested from SV40 Tag-immunized mice experimentally inoculated with tumor cells synthesized increased in vitro levels of the Th1 cytokine gamma interferon (IFN-γ), as assessed by enzyme-linked immunosorbent assay (ELISA) and flow cytometry assays. CD8⁺ T-cell activity was also heightened in SV40 Tag-immunized and tumor cell-challenged mice, based upon intracellular production of perforin, confirming the cytolytic properties of CD8⁺ T cells against tumor cell challenge. Altogether, these data point to the role of recombinant SV40 Tag protein immunization in initiating a cytotoxic T-lymphocyte (CTL) response during tumor cell dissemination and growth. The downstream activity of CD8⁺ T cells within this model is likely initiated from SV40 Tag-specific antibody mediating ADCC tumor cell destruction.Determining the immunologic mechanisms involved in antitumor responses can provide valuable insight into developing and formulating appropriate immunotherapeutic strategies against a range of human cancers (25). Cell-mediated immunity involving CD8⁺ T lymphocytes is generally regarded as the primary response to utilize due to its potent and efficient cytotoxicity against tumor cell targets in vitro and in animal models (10). Indeed, the proof of concept of this approach is best characterized by specialized conditioning protocols that involve autologous transfer of tumor infiltrating lymphocytes (TILs) in metastatic melanoma patients, with objective responses that approximate 70% (8). However, the efficacy of TILs harvested from additional cancer types have been less than effective, and additional strategies, such as genetic modification of peripheral blood mononuclear cells, are being explored to improve and extend the approach of cytotoxic T-lymphocyte (CTL) immunotherapy clinically (33, 46).The roles of immune components such as CD4⁺ T cells and antibody have been given less attention within the context of promoting tumor immunity against a range of tumor antigens. For example, the ability of CD4⁺ T cells to activate humoral immunity can lead to antitumor responses that involve antibody-dependent cell-mediated cytotoxicity (ADCC) (17). In this scenario, antibody binds its targeted antigen and effectors such as natural killer (NK) cells lyse tumorigenic cells through interaction with the Fc region of the bound antibody. The efficacy of ADCC has been realized in scenarios involving breast cancer and non-Hodgkin''s lymphoma, for example, and to date, the only FDA-approved immunologic treatments against these malignancies involve antibody-based therapies (5).The concurrent roles of antibody—with specific emphasis on ADCC—and CD8⁺ T-cell immunity within the context of tumor immunity have not been widely reported. Several recent studies have commented on the ability of antibody-bound tumor cells, particularly as a whole tumor cell-dendritic cell (DC) vaccination approach, to initiate CTL activity by engaging DCs through Fc receptors (9, 19, 34). However, to our knowledge, the mechanistic aspects of ADCC (e.g., NK-mediated lysis) promoting CD8⁺ T-cell activity have been explored in relatively few studies (27, 41). From an immunotherapeutic standpoint, it may be preferable in certain settings to induce both the humoral and cell-mediated arms of the immune system to offset the progression of tumor cell growth and dissemination. Namely, these strategies could include active or passive approaches to first effectively induce ADCC in response to a tumor antigen, which would promote CTL activity against additional tumor targets through cross-presentation.Our laboratory has been involved in determining the immunologic mechanisms of tumor immunity induced by the virally encoded tumor-specific antigen simian virus 40 (SV40) large tumor antigen (Tag). The mechanistic aspects of SV40 Tag-induced tumor immunity have been examined within an experimental murine model of pulmonary metastasis. To date, CD4⁺ T cells and SV40 Tag-specific antibody have been implicated as required immune components within this murine system in order to achieve complete systemic tumor immunity (18). These studies demonstrated that during the course of immunization with SV40 Tag (i.e., the induction-phase response), CD4⁺ T cells were required to induce an SV40 Tag humoral response. The specific role of the antibody response against an experimental tumor cell challenge was observed to involve ADCC-mediated clearance pathways (4, 23).In the present study, we further characterize the immunologic response to SV40 Tag immunization by observing the necessary immune cell components following experimental challenge (i.e., the effector-phase response) with a tumor cell line expressing SV40 Tag. With the development of an SV40 Tag antibody response following SV40 Tag immunization in vivo, CD8⁺ T-cell depletion during the effector phase resulted in the formation of lung tumor foci and decreased survival not observed with the abrogation of CD4⁺ T cells. SV40 Tag-immunized mice also displayed a heightened Th1 response and CD8⁺ CTL activity after experimental tumor cell challenge, as assessed by enzyme-linked immunosorbent assay (ELISA) and flow cytometry assays. In all, these data indicate that CD8⁺ T cells mediate tumor immunity following antibody activation in response to the tumor-specific antigen SV40 Tag. We hypothesize that CD8⁺ T-cell activity is initiated due to cross-presentation mechanisms as a result of ADCC activity against SV40 Tag. We are not aware of another published report that formulates a role for ADCC activity against a viral oncoprotein in this manner in order to engage CD8⁺ T-cell activation.SV40 Tag has been reported to be expressed in a number of human cancers, including malignant pleural mesothelioma and non-Hodgkin''s lymphoma, although a causal link between SV40 infection and tumorigenesis is uncertain (11, 24, 35). The results of this study have direct implications for the construction of an appropriate immunotherapeutic strategy for patients suffering malignancies expressing the SV40 Tag tumor-specific antigen.     

The influence of SV40 immortalization of human fibroblasts on p53-dependent radiation responses

The simian virus 40 large tumor antigen (SV40 Tag) has been ascribed many functions critical to viral propagation, including binding to the mammalian tumor suppressor p53. Recent studies have demonstrated that SV40-transformed murine cells have functional p53. The status of p53 in SV40-immortalized human cells, however, has not been characterized. We have found that in response to ionizing radiation, p53-dependent p21 transactivation activity is present, albeit reduced, in SV40-immortalized cells and that this activity can be further reduced with either dominant negative p53 expression or higher SV40 Tag expression. Furthermore, overexpression of p53 in SV40-immortalized ataxia-telangiectasia (A-T) cells restores p53-dependent p21 induction to typical A-T levels. All SV40-immortalized cell lines exhibited an absence of G1 arrest. Moreover, all SV40-immortalized cell lines exhibited increased apoptosis relative to primary cells in response to ionizing radiation, suggesting that SV40 immortalization results in a unique phenotype with regard to DNA damage responses.     

Crosstalk between Cancer Cells and Fibroblasts for the Production of Monocyte Chemoattractant Protein-1 in the Murine 4T1 Breast Cancer

The chemokine monocyte chemoattractant protein-1 (MCP-1/CCL2) is shown to promote the progression of breast cancer. We previously identified cancer cell-derived granulocyte-macrophage colony-stimulating factor (GM-CSF) as a potential regulator of MCP-1 production in the murine 4T1 breast cancer, but it played a minimum role in overall MCP-1 production. Here, we evaluated the crosstalk between 4T1 cells and fibroblasts. When fibroblasts were co-cultured with 4T1 cells or stimulated with the culture supernatants of 4T1 cells (4T1-sup), MCP-1 production by fibroblasts markedly increased. 4T1 cells expressed mRNA for platelet-derived growth factor (PDGF)-a, b and c, and the PDGF receptor inhibitor crenolanib almost completely inhibited 4T1-sup-induced MCP-1 production by fibroblasts. However, PDGF receptor antagonists failed to reduce MCP-1 production in tumor-bearing mice. Histologically, 4T1 tumors contained a small number of αSMA-positive fibroblasts, and Mcp-1 mRNA was mainly associated with macrophages, especially those surrounding necrotic lesions on day 14, by in situ hybridization. Thus, although cancer cells have the capacity to crosstalk with fibroblasts via PDGFs, this crosstalk does not play a major role in MCP-1 production or cancer progression in this model. Unraveling complex crosstalk between cancer cells and stromal cells will help us identify new targets to help treat breast cancer patients.     

Adipose monocyte chemotactic protein-1 deficiency reduces high-fat diet-enhanced mammary tumorigenesis in MMTV-PyMT mice

Monocyte chemotactic protein-1 (MCP-1) is an adipokine with demonstrated carcinogenic potential. However, there is a lack of evidence whether adipose-produced MCP-1 contributes to breast cancer. We tested the hypothesis that adipose-produced MCP-1 contributes to mammary tumorigenesis in this study. In a breast cancer model of mouse mammary tumor virus-polyomavirus middle T-antigen (MMTV-PyMT), mice with or without adipose MCP-1 knockout [designated as Mcp-1^−/− or wild-type (WT)] were fed the standard AIN93G diet (16% of energy from soybean oil) or a high-fat diet (HFD, 45% of energy from soybean oil). Adipose MCP-1 knockout reduced Mcp-1 expression in adipose tissue and concentrations of MCP-1 in plasma. Mcp-1^−/− mice fed the HFD had less body fat than their WT counterparts. Adipose MCP-1 knockout attenuated HFD-enhanced mammary tumorigenesis, evidenced by lower mammary tumor volume. Furthermore, Mcp-1^−/− mice, regardless of diet, had a longer tumor latency and less tumor weight than WT mice. When fed the HFD, Mcp-1^−/− mice, compared to WT mice, exhibited lower concentrations of insulin, leptin, resistin, vascular endothelial growth factor and hepatic growth factor in plasma. In summary, adipose MCP-1 deficiency attenuated HFD-enhanced MMTV-PyMT mammary tumorigenesis. This attenuation can be attributed to less body adiposity, improvement in insulin sensitivity and down-regulation in protumorigenic inflammation cytokines and angiogenic factors in Mcp-1^−/− mice. It concludes that adipose-produced MCP-1 contributes to mammary tumorigenesis in the MMTV-PyMT mouse model.     

Reintroduction of a normal retinoblastoma gene into retinoblastoma and osteosarcoma cells inhibits the replication associated function of SV40 large T antigen

The product of the retinoblastoma (Rb) gene can form complexes with the transforming proteins of small DNA tumor viruses, including SV40 large T antigen (Tag), adenovirus E1A, and the human papilloma virus E7. The strong correlation between their ability to transform and their ability to bind Rb protein suggests that these oncoproteins exert their effect through blocking the Rb function. SV40 Tag causes oncogenic cell transformation of rodent cells, and it is also required for viral DNA replication. In this paper, we investigated the effect of the Rb protein on the SV40 replication associated function of Tag. We present evidence suggesting that the complex formation between Rb and Tag interferes with the viral DNA replication. In Y79 retinoblastoma and Saos-2 osteosarcoma cells, which lack functional Rb protein, a SV40 based plasmid vector, pSVEpR4, replicates well. In the same cells reconstituted for Rb expression with an intact Rb gene introduced by retroviral mediated gene transfer, pSVEpR4 replicates to a considerably lower level. The inhibitory effect of Rb protein was surmounted by increasing the intracellular level of Tag. Increasing amounts of Tag in wild-type Rb negative Y79 cells had virtually no effect on SV40 replication. Furthermore, the overexpression of Tag in Rb reconstituted Y79 cells did not alter the growth rate of the cells. These data suggest that Rb protein interacts with Tag and modulates its ability to promote SV40 DNA replication.     

Selectivity of interferon action in simian virus 40-transformed cells superinfected with simian virus 40.

Treatment of African green monkey kidney CV-1 cells with human alpha interferons before infection with simian virus 40 (SV40) inhibited the accumulation of SV40 mRNAs and SV40 T-antigen (Tag). This inhibition persisted as long as the interferons were present in the medium. SV40-transformed human SV80 cells and mouse SV3T3-38 cells express Tag, and interferon treatment of these cells did not affect this expression. SV80 and SV3T3-38 cells which had been exposed to interferons were infected with a viable SV40 deletion mutant (SV40 dl1263) that codes for a truncated Tag. Exposure to interferons inhibited the accumulation of the truncated Tag (specified by the infecting virus) but had no significant effect on the accumulation of the endogenous Tag (specified by the SV40 DNA integrated into the cellular genome). The level of Tag in SV40-transformed mouse SV101 cells was not significantly decreased by interferon treatment. SV40 was rescued from SV101 cells and used to infect interferon-treated and control African green monkey kidney Vero cells. Tag accumulation was inhibited in the cells which had been treated with interferons before infection. Our data demonstrate that even within the same cell the interferon system can discriminate between expression of a gene in the SV40 viral genome and expression of the same gene integrated into a host chromosome.