An epigenetically altered tumor cell vaccine

Functional inactivation of genes critical to immunity may occur by mutation and/or by repression, the latter being potentially reversible with agents that modify chromatin. This study was constructed to determine whether reversal of gene silencing, by altering the acetylation status of chromatin, might lead to an effective tumor vaccine. We show that the expression of selected genes important to tumor immunity, including MHC class II, CD40, and B7-1/2 are altered by treating tumor cells in vitro with a histone deacetylase inhibitor, trichostatin A (TSA). Tumor cells treated in vitro with TSA showed delayed onset and rate of tumor growth in 70% of the J558 plasmacytoma and 100% of the B16 melanoma injected animals. Long-term tumor specific immunity was elicited to rechallenge with wild-type cells in approximately 30% in both tumor models. Splenic T cells from immune mice lysed untreated tumor cells, and SCID mice did not manifest immunity, suggesting that T cells may be involved in immunity. We hypothesize that repression of immune genes is involved in the evasion of immunity by tumors and suggest that epigenetically altered cancer cells should be further explored as a strategy for the induction of tumor immunity.Abbreviations APCs antigen-presenting cells - CIITA MHC class II transactivator - CTLs cytotoxic T lymphocytes - HDACs histone deacetylases - LPAM L-phenylalanine mustard - TSA trichostatin AThis work was supported by grant HD 17013 from the National Institutes of Health, and utilized core facilities supported in part by RPCIs NCI Cancer Support Grant CA16056.     

Active specific immunotherapy with an autologous tumor cell vaccine in patients with resected non-small cell lung cancer

Eighteen postoperative patients with non-small cell lung cancer were actively immunized with a vaccine that included autologous cryopreserved irradiated tumor cells admixed with bacillus Calmette-Guerin. Patients received three weekly intradermal immunizations beginning 1-3 months after surgery (15 patients) or after completion of postoperative radiotherapy (3 patients). There was marked heterogeneity in the relative proportion of tumor cells versus host infiltrating cells within individual vaccines (range of percent tumor cells 7-75%). Five patients exhibited positive delayed cutaneous skin test reactivity (DCR) to autologous irradiated tumor cells prior to immunization, whereas 8 of 13 converted from skin test negative to positive. There were no correlations between DCR reactivity and in vitro lymphoproliferative responses to autologous tumor cells or to clinical outcomes, i.e., freedom from relapse. Possible explanations for the heterogeneity of the lung cancer vaccine and approaches for improving its immunogenicity are discussed.     

Anti-metastatic activity of hapten-modified autologous tumor cell vaccine in an animal tumor model

We used mice from which the primary 410.4 mammary carcinoma had been surgically excised to assess the anti-metastatic activity of low-dose cyclophosphamide (CY) followed by vaccination with dinitrophenyl (DNP)-modified, irradiated, autologous tumor cells (ATC) admixed with bacille Calmette-Guérin (BCG). Our studies revealed that CY treatment of mice followed by vaccination with DNP-modified. irradiated, ATC admixed with BCG improved the relapse-free survival compared to the survival of mice receiving either CY followed by vaccination with unmodified, irradiated, ATC admixed with BCG, or saline (control group). In addition, our studies demonstrated the importance of CY administration in eliciting the therapeutic effect of DNP-modified ATC vaccine against metastatic disease. The therapeutic effect of CY followed by DNP-modified ATC vaccine was abrogated by depletion of CD4(+) or CD8(+) T-cells, illustrating the importance of both T-cell subsets for the anti-metastatic effect of this therapeutic protocol. In addition, neutralizing anti-IFN-gamma monoclonal antibody (mAb), or neutralizing anti-tumor necrosis factor (TNF) mAb reduced the relapse-free survival of mice treated with CY followed by DNP-modified ATC vaccine, indicating the importance of both cytokines for the realization of the anti-metastatic effect of this therapeutic protocol. Since the therapeutic protocol used in our studies was similar to that employed by Berd et al. as postsurgical adjuvant therapy in cancer patients and yielded a comparable anti-metastatic effect, the information obtained from the current studies with our clinically relevant experimental tumor model is expected to shed light on the mechanism(s) by which the anti-metastatic effect of this post-surgical adjuvant therapy is realized in cancer patients.     

Active specific immunotherapy of guinea pigs with visceral tumor implants

Summary Guinea pigs, each with established, 7-day-old, syngeneic visceral micrometastases of line 10 tumor implanted intravenously, were immunized by intradermal inoculations into several sites of a mixture of irradiated line 10 cells and an emulsion containing heat-killed BCG or Mycobacterium phlei bacilli. This treatment led to survival of 72 of 80 treated animals (90%). Therapeutic effectiveness depended on the dose of mycobacteria and on that of irradiated tumor cells. Animals treated by intradermal injection of mycobacteria attached to oil droplets alone or with irradiated tumor cells alone, all died with multiple foci of pulmonary tumor.     

An autologous dendritic cell canine mammary tumor hybrid-cell fusion vaccine

Mammary cancer is among the most prevalent canine tumors and frequently resulting in death due to metastatic disease that is highly homologous to human breast cancer. Most canine tumors fail to raise effective immune reactions yet, some spontaneous remissions do occur. Hybrid canine dendritic cell–tumor cell fusion vaccines were designed to enhance antigen presentation and tumor immune recognition. Peripheral blood-derived autologous dendritic cell enriched populations were isolated from dogs based on CD11c⁺ expression and fused with canine mammary tumor (CMT) cells for vaccination of laboratory Beagles. These hybrid cells were injected into popliteal lymph nodes of normal dogs, guided by ultrasound, and included CpG-oligonucleotide adjuvants. Three rounds of vaccination were delivered. Significant IgG responses were observed in all vaccinated dogs compared to vehicle-injected controls. Canine IgG antibodies recognized shared CMT antigens as was demonstrated by IgG-recognition of three unrelated/independently derived CMT cell lines, and recognition of freshly isolated, unrelated, primary biopsy-derived CMT cells. A bias toward an IgG2 isotype response was observed after two vaccinations in most dogs. Neither significant cytotoxic T cell responses were detected, nor adverse or side-effects due to vaccination or due to the induced immune responses noted. These data provide proof-of-principle for this cancer vaccine strategy and demonstrate the presence of shared CMT antigens that promote immune recognition of mammary cancer.     

CD4 T cell dependent tumor immunity stimulated by dendritic cell based vaccine

CD8 CTLs have been accountable for the major effector cells responsible for the rejection of tumor cells. And CD40 signaling and IL-12 have been shown to be the essential pathways involved in the activation process. Immunizing mice with dendritic cells transduced with an adenovirus expressing the human melanoma antigen gp100, an immunization strategy of xenoimmunization, stimulated potent tumor protection dependent on effective CD4 T cells in the absence of CD8 T cells. Further studies revealed that neither CD40 signaling nor IL-12 was indispensable for the activation of dendritic and CD4 T cells in this model. Stimulation of effective antitumor immunity targeting the self-antigen did not elicit autoimmunity. The implications of this study were discussed.     

Chemoimmunotherapy of stage III breast carcinoma with BCG and a live allogeneic tumor cell vaccine

Summary Ten women with metastatic breast carcinoma were treated with CMF, BCG, and a live TCV in a phase I study to determine whether viable allogeneic tumor cells can safely be given to women receiving adjuvant chemotherapy. Side effects of fatigue, nausea, vomiting, alopecia, and myelosuppression were attributable to chemotherapy. Side effects of BCG therapy were malaise, fever, and pruritis at the injection site, as previously described. Four patients developed hepatitis B due to viral contamination of the human agamma serum in which the tumor cells were grown. This complication has now been eliminated by omitting human sera, and hence the possibility of hepatitis B virus, from tumor cell growth media. No local tumor growth was observed in any patient. Results of this study show that live TCV is safe for patients receiving chemotherapy, and could be tested in combination with BCG and chemotherapy for control of micrometastases from breast cancer following mastectomy. Abbreviations used in this paper: BCG, bacillus Calmette-Guérin; CMF, cyclophosphamide, methotrexate, and 5-fluorouracil; DNCB, dinitrochlorobenzene; PPD, purified protein derivative; TCV, tumor cell vaccine(s).     

Tumor-derived TGF-beta reduces the efficacy of dendritic cell/tumor fusion vaccine

Dendritic cell (DC)-based antitumor vaccine is a novel cancer immunotherapy that is promising for reducing cancer-related mortality. However, results from early clinical trials were suboptimal. A possible explanation is that many tumors secrete immunosuppressive factors such as TGF-beta, which may hamper host immune response to DC vaccine. In this study, we demonstrated that TGF-beta produced by tumors significantly reduced the potency of DC/tumor fusion vaccines. TGF-beta-secreting (CT26-TGF-beta) stable mouse colon cancer cell lines were generated using a retroviral vector expressing TGF-beta. A non-TGF-beta-secreting (CT26-neo) cell line was generated using an empty retroviral vector. The efficacies of DC/tumor fusion vaccines were assessed in vitro and in vivo. DC/CT26-TGF-beta fusion cells failed to induce a strong T cell proliferative response in vitro, mainly due to the effect of TGF-beta on T cell responsiveness rather than DC stimulatory capability. Animals vaccinated with DC/CT26-TGF-beta fusion vaccine had lower tumor-specific CTL activity and had significantly lower survival after tumor challenge as compared with animals immunized with DC/CT26-neo hybrids (45 vs 77%, p < 0.05). Ex vivo exposure of DCs to TGF-beta did not appear to lessen the efficacy of DC vaccine. These data suggest that tumor-derived TGF-beta reduces the efficacy of DC/tumor fusion vaccine via an in vivo mechanism. Neutralization of TGF-beta produced by the fusion cells may enhance the effectiveness of DC-based immunotherapy.     

Treatment of experimental visceral leishmaniasis with lymphokine encapsulated in liposomes

Highly susceptible mice were infected with Leishmania donovani chagasi and were treated with supernatants, free or encapsulated in liposomes, from concanavalin A-stimulated or unstimulated mouse spleen cell cultures. Treatment consisted of multiple i.v. injections beginning 2 days before to 2 days after infection. Mice treated with lymphokine-rich supernatants encapsulated in liposomes had significantly fewer liver parasites than the control groups, demonstrating in vivo activity of lymphokine against an infectious organism.     

Peritoneal effusion in a dog secondary to visceral mast cell tumor. A case report

BACKGROUND: Mast cell tumor, one of the most common skin tumors in dogs, may also be found in visceral sites (mainly spleen and liver). When a visceral mast cell tumor is present, neoplastic mast cells may be found in any effusion secondary to the tumor. Therefore, the diagnosis may be made by cytologic analysis of the effusion. CASE: An 8-year-old, spayed, female Siberian husky presented with a peritoneal effusion secondary to a visceral mast cell tumor. Seven months earlier, the dog had presented with a cutaneous nodule diagnosed as a well-differentiated mast cell tumor. The peritoneal fluid was classified as a transudate. Numerous neoplastic mast cells were found in the effusion. Although the mast cell tumor presented with characteristics of the well-differentiated tumor, its biologic behavior was that of a malignant tumor. CONCLUSION: Care should be taken to evaluate the prognosis of mast cell tumors in dogs since their biologic behavior is extremely variable.     

Expression of a soluble TGF-beta receptor by tumor cells enhances dendritic cell/tumor fusion vaccine efficacy

Dendritic cell (DC)-based antitumor immunotherapy is a promising cancer therapy. We have previously shown that tumor-derived TGF-beta limits the efficacy of the DC/tumor fusion vaccine in mice. In the current study we investigated the effect of neutralizing tumor-derived TGF-beta on the efficacy of the DC/tumor fusion vaccine. An adenovirus encoding human TGF-beta receptor type II fused to the Fc region of human IgM (Adv-TGF-beta-R) or a control adenovirus encoding LacZ (Adv-LacZ) was used to express a soluble form of the neutralizing TGF-beta receptor (TGF-beta-R). Murine breast carcinoma cells, 4T1, but not bone marrow-derived DCs, were successfully transfected with Adv-TGF-beta-R (4T1+Adv-TGF-beta-R) using a multiplicity of infection of 300. Immunization with irradiated 4T1+Adv-TGF-beta-R tumor cells conferred enhanced antitumor immunity compared with immunization with irradiated 4T1+Adv-LacZ tumor cells. The DC/4T1+Adv-TGF-beta-R fusion vaccine offered enhanced protective and therapeutic efficacy compared with the DC/4T1-Adv-LacZ fusion vaccine. Because TGF-beta is known to induce regulatory T cells (Tregs), we further showed that the DC/4T1+Adv-TGF-beta-R fusion vaccine induced fewer CD4(+)CD25(+)Foxp3(+) Tregs than the DC/4T1+Adv-LacZ fusion vaccine in vitro and in vivo. The suppressive role of splenic CD4(+)CD25(+) Tregs isolated from mice immunized with DC/4T1+Adv-LacZ was demonstrated using a CTL killing assay. Similar enhanced therapeutic efficacy was observed in murine renal cell carcinoma, RenCa, which expresses a high level of TGF-beta. We conclude that the blockade of tumor-derived TGF-beta reduces Treg induction by the DC/tumor fusion vaccine and enhances antitumor immunity. This may be an effective strategy to enhance human DC-based antitumor vaccines.     

肿瘤预防性疫苗的研究进展

肿瘤疫苗包括肿瘤治疗性疫苗和肿瘤预防性疫苗。流行病学调查显示,人群罹患传染病或接种疫苗可降低发生肿瘤的风险,为肿瘤的预防和控制提出了新思路。近年来,肿瘤预防性疫苗尤其是抗致癌病原体预防性疫苗的研究已取得突破性进展,如乙型肝炎疫苗已证实对原发性肝癌具有预防作用,预防宫颈癌的人乳头瘤病毒疫苗已上市并广泛应用,预防胃癌的幽门螺杆菌疫苗研究也已进入临床研究。其次,以肿瘤抗原作为有效成分也是制备肿瘤预防性疫苗的一种新思路。简述了病原体感染及疫苗接种对发生肿瘤危险性的影响,并对肿瘤预防性疫苗的研究进展进行了总结和概述。     

Postoperative active specific immunization in curatively resected colorectal cancer patients with a virus-modified autologous tumor cell vaccine

Summary Active specific immunotherapy was performed in a phase I study in 20 colorectal cancer patients after surgical resection of the tumor. An autologous tumor cell vaccine surface modified by Newcastle disease virus (NDV) was used, which showed the following characteristics. After mechanical and enzymatic dissociation of the tumor tissue an average of 5 × 10⁷ cells/g tissue was obtained. According to trypan blue dye exclusion assay the average viability was 72%. Following irradiation (200 Gy) the inactivation of proliferative activity of the cells could be demonstrated by the absence of incorporation of³H-labelled thymidine. The cells were, however, still metabolically active as shown by the incorporation of [³H]-uridine and a mixture of³H-labelled amino acids. Epithelium-specific antigens (detected by mAb HEA125) were expressed on more than 75% cells of the cell suspension indicating a high amount of (epithelium-derived) tumor cells. In order to increase the immunogenicity of the tumor cells the suspended cells were infected by the nonlytic, apathogenic Ulster strain of NDV. The successful modification of tumor cells with NDV could be shown by electron microscopy. Three weeks postoperatively cells were thawed, virus-modified, and inoculated intradermally in the upper thigh. Several cell and virus concentrations were tested in each patient. As control, tumor cells without NDV, NDV alone and normal colon mucosa were used. The number of tumor cells ranged from 2 × 10⁶ up to 2 × 10⁷ cells and NDV concentrations from 4 to 64 hemagglutination units (HU) were tested. Sixteen patients responded with a delayed-type hypersensitivity (DTH) skin reaction to the vaccine. The best DTH reaction, measured 24 h following vaccination, was obtained using a vaccine consisting of 1 × 10⁷ tumor cells and 32 HU NDV (median induration of 8 mm). Response to NDV alone was seen in 2 patients only (median induration of 3 mm); 12 patients responded to tumor cells (1 × 10⁷) alone (median induration of 4 mm). Of 10 patients tested with normal colorectal mucosa, 4 responded with a median induration of 3.5 mm. DTH responses to the vaccine of 1 × 10⁷ tumor cells and 32 HU NDV increased throughout the repeated vaccinations to a median induration of 9.5 mm at the end of the therapy. No severe side-effects in the course of the immunotherapy, except for mild fever in 4/20 patients, were observed. The results of our phase I study show that this type of autologous colorectal tumor cell vaccine is ready for a large clinical trial to prove its efficacy.     

Immunotherapy with tumor cell subpopulations

Summary L1210 tumor subpopulations were isolated by lectin-nylon chromatography and evaluated in active, specific immunotherapy of residual L1210 leukemia (following reduction in tumor burden by chemotherapy). Immunotherapy with cells either not binding mannosylspecific columns or eluted from fucose-specific columns resulted in a higher percent of long-term survivors compared to mice treated with chemotherapy only. In contrast, immunotherapy with cells eluted from galactose-specific columns was deleterious, and abrogated the beneficial effects of chemotherapy. The results emphasize that (a) clinical immunotherapy may be either beneficial or deleterious, depending upon the properties of the tumor cell vaccine, and (b) the therapeutic value of L1210 subpopulations is related to the expression of cell-surface carbohydrates.Supported, in part, by a research contract from the National Cancer Institute, USA     

Immunotherapy with tumor cell subpopulations

Summary The use of isolated tumor cell subpopulations combined with nonspecific immunostimulation (BCG and C parvum) was studied in the L1210-B6D2F₁ tumor-host model. Some tumor cell vaccines abrogated the immunotherapeutic value of nonspecific immunostimulants. A tumor cell vaccine prepared from a subpopulation with no apparent immunotherapeutic value completely neutralized the excellent therapeutic value of C parvum in this tumor-host model. The results emphasize the limitations of immunotherapy, and also the need to understand fundamental relationships between the immunological status of the host and subsequent immune stimulation.     

Reduced efficacy of multiple doses of CpG-matured dendritic cell tumor vaccine in an experimental model

CpG motifs have been advanced as agents that stimulate the maturation of DCs for immunotherapy. The present study tested the hypothesis that multiple doses of CpG-matured DC vaccine would be efficacious for complete eradication of experimentally-induced tumor. Accordingly, WEHI164 cells were implanted subcutaneously in the flank of BALB/c mice. During DC culture, tumor lysate was added to immature DCs followed by addition of CpG or non-CpG control 4–6 h later. A total of three doses of CpG or non-CpG control-matured DCs were injected around tumors. The results showed that multiple doses of CpG-matured DCs led to considerable decrease in cytotoxicity of lymphocytes and significantly increased tumor growth rate compared to a single dose. Further, mice which received three doses of the vaccine also displayed significant FoxP3 in tumor tissue. In conclusion, multiple doses of CpG-matured DCs exhibited decreased anti-tumor immunity in association with increased expression of FoxP3.     

Progress in vaccine research and possible effector mechanisms in visceral leishmaniasis

Visceral leishmaniasis represents a serious public health concern in endemic regions and is rapidly emerging as an opportunistic infection in HIV patients. The disease is difficult to diagnose and prevent, and available treatment is associated with toxicity and drug resistance. Even though significant headway has been made in the development of vaccines against cutaneous leishmaniasis, visceral leishmaniasis has received limited attention. The fact that a large proportion of the people living in endemic areas have self-resolving subclinical infection and individuals once recovered are immune to reinfection provides a rationale for designing immunoprophylactic strategies against visceral leishmaniasis. The primary aim of this paper is to review advances in vaccination strategies against visceral leishmaniasis, suggesting possible effector mechanism leading to resistance. It also covers the role of immunostimulators and gives an account of the adjuvants used against visceral leishmaniasis. Vaccine strategies in different established experimental models have also been dealt with which can provide potential leads for their application in humans. In light of the available observations made during the course of studies performed on experimental models of visceral leishmaniasis there is increasing evidence that a successful approach towards a vaccine involves the requirement of Th1 subset of CD4+ cells along with Th2, CD8+, and B cells. In this review we present the possible mechanism of interaction of these cells and their effector molecules in providing resistance against visceral leishmaniasis for the future design of effective vaccine against this disease.