Killer cells induced by stimulation with allogeneic tumor cells and subsequent culture with recombinant interleukin-2

Summary Peripheral blood lymphocytes were cultured for 5 days with allogeneic tumor cells (allogeneic mixed lymphocyte/tumor cell culture), and subsequently cultured with recombinant interleukin-2 for 12 days. These cultured cells were found to be cytotoxic to autologous tumor cells. Results of two-color analysis using monoclonal antibodies to cell markers showed that more than 80% of their cultured cells were CD3⁺ cells, and CD4⁺ cells showed a higher distribution than CD8⁺ cells. However, CD8⁺ cells had a much higher killing activity with autologous tumor than did CD4⁺ cells, when estimated by an elimination study using monoclonal antibodies to T cell phenotypes and complement. The cold-target inhibition test showed that the cytotoxicity of these cells for autologous tumor cells was inhibited by unlabeled autologous tumor cells but not by unlabeled stimulator cells. Furthermore, about 40% of the cytotoxicity was suppressed by blocking of HLA class I antigen with a monoclonal antibody on autologous tumor cells. Thus, cytotoxic activity of lymphocytes to autologous tumor restricted by target cell HLA class I antigen is possibly induced by allogeneic tumor-stimulation.     

Identification of a novel population of highly cytotoxic c‐Met‐expressing CD8+ T lymphocytes

CD8⁺ cytotoxic T lymphocytes (CTLs) are critical mediators of anti‐tumor immunity, and controlling the mechanisms that govern CTL functions could be crucial for enhancing patient outcome. Previously, we reported that hepatocyte growth factor (HGF) limits effective murine CTL responses via antigen‐presenting cells. Here, we show that a fraction of murine effector CTLs expresses the HGF receptor c‐Met (c‐Met⁺ CTLs). Phenotypic and functional analysis of c‐Met⁺ CTLs reveals that they display enhanced cytolytic capacities compared to their c‐Met^? CTL counterparts. Furthermore, HGF directly restrains the cytolytic function of c‐Met⁺ CTLs in cell‐mediated cytotoxicity reactions in vitro and in vivo and abrogates T‐cell responses against metastatic melanoma in vivo. Finally, we establish in three murine tumor settings and in human melanoma tissues that c‐Met⁺ CTLs are a naturally occurring CD8⁺ T‐cell population. Together, our findings suggest that the HGF/c‐Met pathway could be exploited to control CD8⁺ T‐cell‐mediated anti‐tumor immunity.     

Comparative analysis of DC fused with allogeneic hepatocellular carcinoma cell line HepG2 and autologous tumor cells as potential cancer vaccines against hepatocellular carcinoma

Fusions of patient-derived dendritic cells (DCs) and autologous tumor cells induce T-cell responses against autologous tumors in animal models and human clinical trials. These fusion cells require patient-derived tumor cells, which are not, however, always available. Here we fused autologous DCs from patients with hepatocellular carcinoma (HCC) to an allogeneic HCC cell line (HepG2). These fusion cells co-expressed tumor-associated antigens (TAAs) and DC-derived costimulatory and MHC molecules. Both CD4⁺ and CD8⁺ T cells were activated by the fusion cells. Cytotoxic T lymphocytes (CTLs) induced by the fusion cells were able to kill autologous HCC by HLA-A2- and/or HLA-A24-restricted mechanisms. CTL activity against shared TAAs indicates that the presence of alloantigens does not prevent the development of CTLs with activity against autologous HCC cells. These fusion cells may have applications in anti-tumor immunotherapy through cross-priming against shared tumor antigens and may provide a platform for adoptive immunotherapy.     

CD4+ T cell-mediated cytotoxicity is associated with MHC class II expression on malignant CD19+ B cells in diffuse large B cell lymphoma

Diffuse large B cell lymphoma (DLBCL) is a common B cell malignancy with approximately 30% of patients present relapsed or refractory disease after first-line therapy. Research of further treatment options is needed. Cytotoxic CD4⁺ T cells express cytolytic molecules and have potential antitumor function. Here, we showed that the CD19⁺ cells from DLBCL patients presented significantly reduced expression of MHC II molecules than those from healthy controls. Three years after the first-line treatment, patients that presented relapsed disease had significantly lower MHC II expression on their CD19⁺ cells than patients who did not show recurrence. Examining cytotoxic CD4⁺ T cells show that DLBCL patients presented significantly elevated frequencies of granzyme A-, granzyme B-, and/or perforin-expressing cytotoxic CD4⁺ T cells. Also, frequency of cytotoxic CD4⁺ T cells in DLBCL patients was positively correlated with the MHC II expression level. Subsequently, the cytotoxic potential of CD4⁺ T cells against autologous CD19⁺ cells was investigated. We found that the cytotoxic potential of CD4⁺ T cells was highest in MHC II-high, intermediate in MHC II-mid, and lowest in MHC II-low patients. The percentage of MHC II-expressing viable CD19⁺ cells presented a significant reduction after longer incubation with cytotoxic CD4⁺ T cells, suggesting that cytotoxic CD4⁺ T cells preferentially eliminated MHC II-expressing CD19⁺ cells. Blocking MHC II on CD19⁺ cells significantly reduced the cytolytic capacity of CD4⁺ T cells. Despite these discoveries, the frequency of cytotoxic CD4⁺ T cells did not predict the clinical outcome of DLBCL patients. Together, these results demonstrated that cytotoxic CD4⁺ T cells presented an MHC II-dependent cytotoxic potential against autologous CD19⁺ cells and could potentially represent a future treatment option for DLBCL.     

Synergy between interleukin-2 and prothymosin α for the increased generation of cytotoxic T lymphocytes against autologous human carcinomas

 Peripheral blood mononuclear cells (PBMC) from cancer patients were cultured in vitro with irradiated autologous tumor cells isolated from malignant effusions (mixed lymphocyte tumor cultures, MLTC) and low-dose (50 IU/ml) recombinant interleukin-2 (IL-2). The combination of IL-2 and prothymosin α (ProTα) resulted in a greater PBMC-induced response to the autologous tumor than that brought about by IL-2 alone. In particular, ProTα specifically enhanced the CD4⁺ T-cell-mediated proliferation against the autologous tumor. CD4⁺ T cells seemed to recognize tumor antigens presented by HLA-DR molecules expressed on the autologous monocytes, since preincubation of the latter with an anti-HLA-DR monoclonal antibody (mAb) abrogated the response. In addition, MLTC set up with IL-2 and ProTα also generated more MHC-class-I-restricted cytotoxic T lymphocytes (CTL) against the autologous tumor than did MLTC set up with IL-2 alone. The MLTC-induced CTL contained high levels of cytoplasmic perforin and their development was strictly dependent on the presence of both autologous CD4⁺ T cells and monocytes. In the absence of either population there was a strong impairment of both proliferative and cytotoxic responses which was not restored by the presence of ProTα. In contrast, when both cell populations were present, ProTα exerted optimal enhancement of CD4⁺ T cell proliferation, which was associated with potentiated CTL responses. Our data emphasize the role of ProTα for the enhancement of IL-2-induced CTL responses against autologous tumor cells. Such responses require collaborative interactions between CD4⁺, CD8⁺ T cells and monocytes as antigen-presenting cells. Our data are relevant for adoptive immunotherapeutic settings utilizing IL-2 and ProTα-induced autologous-tumor-specific CTL. Received: 2 March 2000 / Accepted: 1 June 2000     

In vivo anti-melanoma efficacy of allo-restricted CTLs specific for melanoma expanded by artificial antigen-presenting cells

Cytotoxic CD8⁺ T cells are key effectors in the immunotherapy of malignant and viral diseases. However, autologous T cell responses to tumor antigens presented by self-MHC are usually weak and ineffective. Allo-restricted T cells represent a potent source of tumor-specific T cells for adoptive immunotherapy. This study reports in vivo anti-melanoma efficacy of the pTRP2-specific allo-restricted CTLs expanded from the BALB/c splenocytes by multiple stimulations with aAPCs made by coating H-2K^b-Ig/pTRP2 dimeric complexes, anti-CD28 antibody, 4-1BBL molecules and CD83 molecules to cell-sized latex beads. The induced allo-restricted CTLs exhibited specific lysis against RMA-S cells pulsed with the peptide pTRP2 and H-2K^b+ melanoma cells expressing TRP2, while a murine Lewis lung carcinoma cell line 3LL could not be recognized by the CTLs. The peptide-specific activity was inhibited by anti-H-2K^b monoclonal antibody Y3. Adoptive transfer of the allo-restricted CTLs specific for malignant melanoma expanded by the aAPCs can mediate effective anti-melanoma response in vivo. These results suggested that the specific allo-restricted CTLs expanded by aAPCs coated with an MHC-Ig/peptide complex, anti-CD28 antibody, 4-1BBL and CD83 could be a potential option of specific immunotherapy for patients with malignant melanoma. X.-l. Lu and X.-b. Jiang have contributed equally to this work. An erratum to this article can be found at     

Intrinsically de-sialylated CD103+ CD8 T cells mediate beneficial anti-glioma immune responses

Background

Cancer vaccines reproducibly cure laboratory animals and reveal encouraging trends in brain tumor (glioma) patients. Identifying parameters governing beneficial vaccine-induced responses may lead to the improvement of glioma immunotherapies. CD103⁺ CD8 T cells dominate post-vaccine responses in human glioma patients for unknown reasons, but may be related to recent thymic emigrant (RTE) status. Importantly, CD8 RTE metrics correlated with beneficial immune responses in vaccinated glioma patients.

Methods

We show by flow cytometry that murine and human CD103⁺ CD8 T cells respond better than their CD103^? counterparts to tumor peptide-MHC I (pMHC I) stimulation in vitro and to tumor antigens on gliomas in vivo.

Results

Glioma responsive T cells from mice and humans both exhibited intrinsic de-sialylation-affecting CD8 beta. Modulation of CD8 T cell sialic acid with neuraminidase and ST3Gal-II revealed de-sialylation was necessary and sufficient for promiscuous binding to and stimulation by tumor pMHC I. Moreover, de-sialylated status was required for adoptive CD8 T cells and lymphocytes to decrease GL26 glioma invasiveness and increase host survival in vivo. Finally, increased tumor ST3Gal-II expression correlated with clinical vaccine failure in a meta-analysis of high-grade glioma patients.

Conclusions

Taken together, these findings suggest that de-sialylation of CD8 is required for hyper-responsiveness and beneficial anti-glioma activity by CD8 T cells. Because CD8 de-sialylation can be induced with exogenous enzymes (and appears particularly scarce on human T cells), it represents a promising target for clinical glioma vaccine improvement.     

High expression of adhesion molecules/activation markers with little interleukin-2, interferon γ, and tumor necrosis factor β gene activation in fresh tumor-infiltrating lymphocytes from lung adenocarcinoma

Tumor-infiltrating lymphocytes (TIL) were derived from primary breast tumors, metastatic lymph nodes and malignant pleural effusions from 34 patients with breast cancer. TIL were cultured for approximately 30 days and studied for phenotype, cytotoxicity, and the ability to secrete cytokines in response to autologous tumor stimulation. Tumor specimens were obtained from two different sites in 7 patients, resulting in 41 samples from which 38 TIL cultures were established. In addition to screening 38 bulk TIL cultures, TIL from 21 patients were separated into CD4⁺ and CD8⁺ subsets and extensively studied. Three CD4⁺ TIL were found specifically to secrete granulocyte macrophage-colony-stimulating factor and tumor necrosis factor when stimulated by autologous tumor and not by a large panel of stimulators (24–34) consisting of autologous normal cells, allogeneic breast or melanoma tumors and EBV-B cells. This cytokine release was found to be MHC-class-II-restricted, as it was inhibited by the anti-HLA-DR antibody L243. These 3 patients' EBV-B cells, when pulsed with tumor lysates, were unable to act as antigen-presenting cells and induce cytokine secretion by their respective CD4⁺ TIL. These findings demonstrate that MHC-class-II-restricted CD4⁺ T cells recognising tumor-associated antigens can be detected in some breast cancer patients.     

Induction of tumor-specific T lymphocyte responses in vivo by prothymosin α

We have recently reported that administration of Pro T to DBA/2 mice before the inoculation of syngeneic L1210 leukemic cells prolonged the survival of these animals by (a) inducing tumoricidal peritoneal macrophages, (b) enhancing natural killer (NK) and inducing lymphokine-activated killer (LAK) activities in splenocytes and (c) inducing the production of interleukin-2 and tumor necrosis factor [Papanastasiou et al. (1992) Cancer Immunol Immunother 35:145; Baxevanis et al. (1994) Cancer Immunol Immunother 38:281]. In this report we demonstrate that Pro T , when administered simultaneously with L1210 tumor cells, is capable of generating in DBA/2 animals tumorspecific CD8⁺ cytotoxic T lymphocytes (CTL). The Pro T -induced CD8⁺ CTL lysed their syngeneic L1210 targets in a major histocompatibility complex (MHC)-restricted fashion since monoclonal antibodies (mAb) against the H-2K^d allelic product could inhibit the cytotoxic response. Mice receiving only Pro T developed non-MHC-restricted cytotoxic activity (NK, and LAK activities) whereas those receiving Pro T and L1210 tumor cells developed both MHC-restricted (CTL) and non-MHC-restricted cytotoxic activities and survived longer. The Pro T -induced CD8⁺ CTL activity was regulated by Pro T -induced L1210-specific syngeneic CD4⁺ cells. This was shown in two different ways: first, CD8⁺-cell-mediated cytotoxic responses against L1210 targets were associated with L1210-specific and MHC-restricted proliferative responses of syngeneic CD4⁺ cells and, second, CD4⁺ cells from mice that had received both Pro T and L1210 tumor cells could enhance in vitro the otherwise weak, MHC-restricted and L1210-specific cytotoxicity of syngeneic CD8⁺ cells from mice that had received only L1210 cells. Our data suggest that Pro T is capable of inducing nonspecific, as well as tumor-specific CTL responses in vivo. This is of importance since Pro T may prove to be useful in clinical protocols aimed at cancer immunotherapy.This work was supported by a CEC grant to Dr. M. Papamichail     

In vivo priming of natural killer T cells by dendritic cells pulsed with hepatoma-derived acid-eluted substances

Many murine tumor cells express not only individual haplotype-matched class I MHC molecules, but also species-specific CD1d molecules. The former class I MHC molecules generally present internally synthesized tumor-derived peptide antigens to highly specific CD8⁺ cytotoxic T lymphocytes (CTLs) in acquired immunity. In contrast, the latter CD1d molecules may present tumor-associated glycolipid antigens to broadly crossreactive natural killer T (NKT) cells, which might correlate with controlling tumor metastasis. Here, we showed that murine hepatoma cell line Hepa1-6-derived acid-eluted substances might contain both D^b class I MHC-restricted antigens and CD1d-restriced substances, which could sensitize not only syngeneic bone marrow-derived DCs (BM-DCs), but also allogeneic BM-DCs expressing haplotype-mismatched class I MHC and species-specific CD1d molecules. To our surprise, intravenous (i.v.) immunization of C57BL/6 mice with the former syngeneic BM-DCs carrying acid-eluted materials primed both CD4^–CD8^– and CD8⁺ NKT cells in the spleen, whereas immunization with the latter allogeneic BM-DCs loaded the tumor-derived substances primed CD4^–CD8^–, but not CD8⁺ NKT cells. The findings shown in the present study will open a new area for cancer immunotherapy using allogeneic DCs and tumor-derived acid-eluted substances.Abbreviations CTLs cytotoxic T lymphocytes - NKT natural killer T - BM-DCs bone marrow-derived dendritic cells - CTM complete T-cell medium - FCS fetal calf serum - MMC mitomycin C - TCRs T cell receptors     

Focal Radiation Therapy Combined with 4-1BB Activation and CTLA-4 Blockade Yields Long-Term Survival and a Protective Antigen-Specific Memory Response in a Murine Glioma Model

Background

Glioblastoma (GBM) is the most common malignant brain tumor in adults and is associated with a poor prognosis. Cytotoxic T lymphocyte antigen -4 (CTLA-4) blocking antibodies have demonstrated an ability to generate robust antitumor immune responses against a variety of solid tumors. 4-1BB (CD137) is expressed by activated T lymphocytes and served as a co-stimulatory signal, which promotes cytotoxic function. Here, we evaluate a combination immunotherapy regimen involving 4-1BB activation, CTLA-4 blockade, and focal radiation therapy in an immune-competent intracranial GBM model.

Methods

GL261-luciferace cells were stereotactically implanted in the striatum of C57BL/6 mice. Mice were treated with a triple therapy regimen consisted of 4-1BB agonist antibodies, CTLA-4 blocking antibodies, and focal radiation therapy using a small animal radiation research platform and mice were followed for survival. Numbers of brain-infiltrating lymphocytes were analyzed by FACS analysis. CD4 or CD8 depleting antibodies were administered to determine the relative contribution of T helper and cytotoxic T cells in this regimen. To evaluate the ability of this immunotherapy to generate an antigen-specific memory response, long-term survivors were re-challenged with GL261 glioma en B16 melanoma flank tumors.

Results

Mice treated with triple therapy had increased survival compared to mice treated with focal radiation therapy and immunotherapy with 4-1BB activation and CTLA-4 blockade. Animals treated with triple therapy exhibited at least 50% long-term tumor free survival. Treatment with triple therapy resulted in a higher density of CD4⁺ and CD8⁺ tumor infiltrating lymphocytes. Mechanistically, depletion of CD4⁺ T cells abrogated the antitumor efficacy of triple therapy, while depletion of CD8⁺ T cells had no effect on the treatment response.

Conclusion

Combination therapy with 4-1BB activation and CTLA-4 blockade in the setting of focal radiation therapy improves survival in an orthotopic mouse model of glioma by a CD4⁺ T cell dependent mechanism and generates antigen-specific memory.     

In Vivo Identification and Characterization of CD4+ Cytotoxic T Cells Induced by Virulent Brucella abortus Infection

CD4⁺ T cells display a variety of helper functions necessary for an efficient adaptive immune response against bacterial invaders. This work reports the in vivo identification and characterization of murine cytotoxic CD4⁺ T cells (CD4⁺ CTL) during Brucella abortus infection. These CD4⁺ CTLs express granzyme B and exhibit immunophenotypic features consistent with fully differentiated T cells. They express CD25, CD44, CD62L ,CD43 molecules at their surface and produce IFN-γ. Moreover, these cells express neither the co-stimulatory molecule CD27 nor the memory T cell marker CD127. We show here that CD4⁺ CTLs are capable of cytolytic action against Brucella-infected antigen presenting cells (APC) but not against Mycobacterium-infected APC. Cytotoxic CD4⁺ T cell population appears at early stages of the infection concomitantly with high levels of IFN-γ and granzyme B expression. CD4⁺ CTLs represent a so far uncharacterized immune cell sub-type triggered by early immune responses upon Brucella abortus infection.     

Tumor-specific CD4+ T cells develop cytotoxic activity and eliminate virus-induced tumor cells in the absence of regulatory T cells

The important role of tumor-specific cytotoxic CD8⁺ T cells is well defined in the immune control of the tumors, but the role of effector CD4⁺ T cells is poorly understood. In the current research, we have used a murine retrovirus-induced tumor cell line of C57BL/6 mouse origin, namely FBL-3 cells, as a model to study basic mechanisms of immunological control and escape during tumor formation. This study shows that tumor-specific CD4⁺ T cells are able to protect against virus-induced tumor cells. We show here that there is an expansion of tumor-specific CD4⁺ T cells producing cytokines and cytotoxic molecule granzyme B (GzmB) in the early phase of tumor growth. Importantly, we demonstrate that in vivo depletion of regulatory T cells (Tregs) and CD8⁺ T cells in FBL-3-bearing DEREG transgenic mice augments IL-2 and GzmB production by CD4⁺ T cells and increases FV-specific CD4⁺ T-cell effector and cytotoxic responses leading to the complete tumor regression. Therefore, the capacity to reject tumor acquired by tumor-reactive CD4⁺ T cells largely depends on the direct suppressive activity of Tregs. We suggest that a cytotoxic CD4⁺ T-cell immune response may be induced to enhance resistance against oncovirus-associated tumors.     

Cellular antitumor immune response to a branched lysine multiple antigenic peptide containing epitopes of a common tumor-specific antigen in a rat glioma model

Human malignant gliomas contain epidermal growth factor receptor (EGFR) gene mutations that encode tumor-associated antigens (TAAs) that can be targeted using immunological techniques. One EGFR mutant gene (EGFRvIII) encodes a protein with an epitope that is not found in normal tissues. A number of studies have focused on this unique epitope as a potential target for tumor vaccines. In the present study, we examined the cellular immune effects of a peptide containing multiple copies of the unique EGFRvIII epitope linked together by way of a lysine bridge. Fischer rats were vaccinated with an EGFRvIII multiple antigenic peptide (MAP). While vaccination produced a humoral immune response, anti-MAP antibody production was not accompanied by expression of the Th2 response cytokine IL-4. In MAP/GM-CSF vaccinated animals, a cellular immune response was detected in association with the appearance of CD4⁺ and CD8⁺ T cells at the tumor site. Splenocytes and CD8⁺ T cells from vaccinated rats produced the Th1 cytokine IFN- in vitro in response to stimulation by rat glioma cells expressing EGFRvIII, but not by those expressing wild-type EGFR. MAP vaccine also induced a specific lytic antitumor CTL immune response against F98 glioma cells expressing EGFRvIII, but not against F98 cells expressing either wild-type EGFR or no receptor. The in vivo growth of F98_EGFRvIII cells was attenuated in vaccinated rats; whereas, growth of F98_EGFR cells was not. The median survival of vaccinated rats was increased 72% over that of unvaccinated controls challenged with intracerebral F98_EGFRvIII tumor implants. Therefore, MAP vaccination produced a predominantly cellular antitumor immune response directed against F98 gliomas expressing the EGFRvIII target antigen. The potent immunosuppressive effects of F98 glioma cells mimic the human disease and make this particular tumor model useful for studying immunotherapeutic approaches to malignant gliomas.     

Human T Cell Crosstalk Is Induced by Tumor Membrane Transfer

Trogocytosis is a contact-dependent unidirectional transfer of membrane fragments between immune effector cells and their targets, initially detected in T cells following interaction with professional antigen presenting cells (APC). Previously, we have demonstrated that trogocytosis also takes place between melanoma-specific cytotoxic T lymphocytes (CTLs) and their cognate tumors. In the present study, we took this finding a step further, focusing on the ability of melanoma membrane-imprinted CD8⁺ T cells to act as APCs (CD8⁺T-APCs). We demonstrate that, following trogocytosis, CD8⁺T-APCs directly present a variety of melanoma derived peptides to fraternal T cells with the same TCR specificity or to T cells with different TCRs. The resulting T cell-T cell immune synapse leads to (1) Activation of effector CTLs, as determined by proliferation, cytokine secretion and degranulation; (2) Fratricide (killing) of CD8⁺T-APCs by the activated CTLs. Thus, trogocytosis enables cross-reactivity among CD8⁺ T cells with interchanging roles of effectors and APCs. This dual function of tumor-reactive CTLs may hint at their ability to amplify or restrict reactivity against the tumor and participate in modulation of the anti-cancer immune response.     

The generation of anti-tumoral cells using dentritic cells from the peripheral bloood of patients with malignant brain tumors

 Dendritic cells (DCs) can be the principal initiators of antigen-specific immune responses. We analyzed the in vitro-responses against brain tumor cells using DCs from the peripheral blood of patients with brain tumors. Peripheral blood mononuclear cells (PBMC) were obtained from 19 patients with malignant brain tumors: 12 metastatic brain tumors of lung adenocarcinoma, 7 high-grade astrocytomas. PBMC were cultured with 100 ng/ml of GM-CSF and 10 ng/ml of IL-4 for 5–7 days in order to produce mature DCs. The autologous tumor lysate (5 mg/ml, containing 1 × 10⁶ cells) was then added to the cultured DCs. Using the DCs generated by these treatments, we assessed the changes that occurred in their immune responses against brain tumor via ⁵¹Cr-release and lymphocyte proliferation assays. We found that the matured DCs displayed the typical surface phenotype of CD3⁺, CD45⁺, CD80⁺ and CD86⁺. After the pulsation treatment with tumor lysate, DCs were found to have strong cytotoxic T lymphocyte activity, showing 42.5 ± 12.7% killing of autologous tumor cells. We also found an enhancement of allogeneic T cell proliferation after pulsing the DC with tumor lysate. These data support the efficacy of DC-based immunotherapy for patients with malignant brain tumors. Received: 2 October 2000 / Accepted: 26 April 2001     

Modification of tumor cells by a low dose of Newcastle disease virus

Summary Augmented tumor-specific T cell responses were observed against the high metastatic murine lymphoma variant ESb when using as immunogen ESb tumor cells that had been modified by infection with a low dose of Newcastle disease virus (NDV). Such virus-modified inactivated tumor cells (ESb-NDV) were potent tumor vaccines when applied postoperatively for active specific immunotherapy of ESb metastases. We demonstrate here that immune spleen cells from mice immunized with ESb-NDV contain enhanced immune capacity in both the CD4⁺, CD8^– and the CD4^–, CD8⁺ T cell compartments to mount a secondary-tumor-specific cytotoxic T cell response in comparison with immune cells from mice immunized with ESb. ESb-NDV immune CD4⁺, CD8^– helper T cells also produced more interleukin 2 after antigen stimulation than the corresponding ESb immune cells. There was no participation of either CD4⁺ or CD8⁺ virus-specific cells in the augmented response. The specificity of the T cells for the tumor-associated antigen remaind unchanged. Thus, there is the paradox that the virus-mediated augmentation of the tumor-specific T cell response in this system involves increased T helper activity but does not involve the recognition of viral epitopes as potential new helper determinants.Abbreviations CTL cytolytic T lymphocytes - IL-2 interleukin 2 - rIL-2 recombinant IL-2 - mAb monoclonal antibody - NDV Newcastle disease virus - SSC syngeneic spleen cell     

Vaccination with vascular progenitor cells derived from induced pluripotent stem cells elicits antitumor immunity targeting vascular and tumor cells

Vaccination of BALB/c mice with dendritic cells (DCs) loaded with the lysate of induced vascular progenitor (iVP) cells derived from murine-induced pluripotent stem (iPS) cells significantly suppressed the tumor of CMS-4 fibrosarcomas and prolonged the survival of CMS-4-inoculated mice. This prophylactic antitumor activity was more potent than that of immunization with DCs loaded with iPS cells or CMS-4 tumor cells. Tumors developed slowly in mice vaccinated with DCs loaded with iVP cells (DC/iVP) and exhibited a limited vascular bed. Immunohistochemistry and a tomato-lectin perfusion study demonstrated that the tumors that developed in the iVP-immunized mice showed a marked decrease in tumor vasculature. Immunization with DC/iVP induced a potent suppressive effect on vascular-rich CMS-4 tumors, a weaker effect on BNL tumors with moderate vasculature, and nearly no effect on C26 tumors with poor vasculature. Treatment of DC/iVP-immunized mice with a monoclonal antibody against CD4 or CD8, but not anti-asialo GM1, inhibited the antitumor activity. CD8⁺ T cells from DC/iVP-vaccinated mice showed significant cytotoxic activity against murine endothelial cells and CMS-4 cells, whereas CD8⁺ T cells from DC/iPS-vaccinated mice did not. DNA microarray analysis showed that the products of 29 vasculature-associated genes shared between genes upregulated by differentiation from iPS cells into iVP cells and genes shared by iVP cells and isolated Flk-1⁺ vascular cells in CMS-4 tumor tissue might be possible targets in the immune response. These results suggest that iVP cells from iPS cells could be used as a cancer vaccine targeting tumor vascular cells and tumor cells.     

Induction of interleukin-2 receptor by tumor necrosis factor α on cultured ovarian tumor-associated lymphocytes

Summary We have recently reported that autologous tumor-specific cytotoxic T lymphocyte (CTL) lines and clones can be developed from lymphocytes infiltrating ovarian malignant ascites (TAL). In this study, we investigated the biological effects of tumor necrosis factor (TNF) in the induction, expansion, long-term proliferation and lytic function of CD8⁺ TAL. TNF up-regulated the IL-2 receptor (IL-2R) chain (Tac antigen) on the surface of CD3⁺ CD8⁺ CD4^– TAL, enhanced the proliferation of autologous tumor-specific CTL, and potentiated their lytic function in long-term cultures. Furthermore, in the induction and expansion phase of CD8⁺ TAL, the presence of TNF was associated with a selective increase in CD8⁺ IL-2R⁺ (Tac⁺) cells, and subsequent decrease in CD4⁺ IL-2R⁺ (Tac⁺) cells. These results suggest that the observed facilitation of the outgrowth of CD8⁺ cells in TAL cultures may be due, at least in part, to the up-regulation of IL-2R, and indicate the usefulness of TNF in the analysis of signalling in autologous tumor-reactive CTL.     

Role of T‐bet,the master regulator of Th1 cells,in the cytotoxicity of murine CD4+ T cells

Although CD4⁺ T cells are generally regarded as helper T cells, some activated CD4⁺ T cells have cytotoxic properties. Given that CD4⁺ cytotoxic T lymphocytes (CTLs) often secrete IFN‐γ, CTL activity among CD4⁺ T cells may be attributable to Th1 cells, where a T‐box family molecule, T‐bet serves as the “master regulator”. However, although the essential contribution of T‐bet to expression of IFN‐γ has been well‐documented, it remains unclear whether T‐bet is involved in CD4⁺ T cell‐mediated cytotoxicity. In this study, to investigate the ability of T‐bet to confer cytolytic activity on CD4⁺ T cells, the T‐bet gene (Tbx21) was introduced into non‐cytocidal CD4⁺ T cell lines and their cytolytic function analyzed. Up‐regulation of FasL (CD178), which provided the transfectant with cytotoxicity, was observed in Tbx21transfected CD4⁺ T cells but not in untransfected parental cells. In one cell line, T‐bet transduction also induced perforin gene (Prf1) expression and Tbx21 transfectants efficiently killed Fas^? target cells. Although T‐bet was found to repress up‐regulation of CD40L (CD154), which controls FasL‐mediated cytolysis, the extent of CD40L up‐regulation on in vitro‐differentiated Th1 cells was similar to that on Th2 cells, suggesting the existence of a compensatory mechanism. These results collectively indicate that T‐bet may be involved in the expression of genes, such as FasL and Prf1, which confer cytotoxicity on Th1 cells.