Determination of cellularly processed HLA-A2402-restricted novel CTL epitopes derived from two cancer germ line genes, MAGE-A4 and SAGE.

PURPOSE: For identification of CTL epitopes useful for cancer vaccines, it is crucial to determine whether cognate epitopes are presented on the cell surface of target cancer cells through natural processing of endogenous proteins. For this purpose, we tried to use the cellular machinery of both mice and human to define naturally processed CTL epitopes derived from two "cancer germ line" genes, MAGE-A4 and SAGE. EXPERIMENTAL DESIGN: We vaccinated newly produced HLA-A2402 transgenic mice with DNA plasmids encoding target antigens. Following screening of synthesized peptides by splenic CD8(+) T cells of vaccinated mice, we selected candidate epitopes bound to HLA-A2402. We then examined whether human CD8(+) T cells sensitized with autologous CD4(+) PHA blasts transduced by mRNA for the cognate antigens could react with these selected peptides in an HLA-A2402-restricted manner. RESULTS: After DNA vaccination, murine CD8(+) T cells recognizing MAGE-A4(143-151) or SAGE(715-723) in an HLA-A2402-restricted manner became detectable. Human CTLs specific for these two peptides were generated after sensitization of HLA-A2402-positive CD8(+) T cells with autologous CD4(+) PHA blasts transduced with respective mRNA. CTL clones were cytotoxic toward tumor cell lines expressing HLA-A2402 and cognate genes. Taken together, these CTL epitopes defined in HLA-A24 transgenic mice are also processed and expressed with HLA-A2402 in human cells. The presence of SAGE(715-723)-specific precursors was observed in HLA-A2402-positive healthy individuals. CONCLUSIONS: Two novel HLA-A2402-restricted CTL epitopes, MAGE-A4(143-151) and SAGE(715-723), were identified. Our approach assisted by cellular machinery of both mice and human could be widely applicable to identify naturally processed CTL epitopes.     

A newly identified MAGE-3-derived epitope recognized by HLA-A24-restricted cytotoxic T lymphocytes

Five MAGE-3-derived peptides carrying an HLA-A24-binding motif were synthesized. Binding capacity of these peptides was analyzed by an HLA-class-I stabilization assay. Two of the 5 peptides bound to HLA-A*2402 molecule with high affinity, and 3 peptides with low affinity. Peripheral-blood mononuclear cells (PBMC) depleted of CD4+T cells were stimulated with the peptides to determine whether these peptides would induce cytotoxic T lymphocytes (CTL) from PBMCs obtained from 7 healthy HLA-A*2402+ donors. Peptide M3-p97 (TFPDLESEF; corresponding to amino-acid residues 97-105 of MAGE-3), with high binding capacity to the HLA-A*2402 molecule, elicited the peptide-specific and HLA-A24-restricted CD8+CTL lines in 2 of the 7 donors, while none of the 4 other peptides induced CTL specific for the corresponding peptide in any of the donors. CTL lines induced by stimulation with peptide M3-p97 exhibited cytolytic activities against HLA-A*2402 transfectant cell lines (C1R-A*2402) in the presence of peptide M3-p97, but not in unloaded or irrelevant peptide-pulsed C1R-A*2402 cells. The CTL lines and a cloned CD8+CTL isolated from one of the bulk populations by limiting dilution could lyse MAGE-3+/HLA-A*2402+ squamous-cell-carcinoma(SCC) lines but neither MAGE-3-/HLA-A*2402+ nor MAGE-3+/HLA-A*2402- SCC lines, indicating that M3-p97 can be naturally processed and presented on the tumor-cell surface in association with HLA-A*2402 molecules. Combined with the 4 currently reported CTL epitopes derived from MAGE-3 and presented by HLA-A1, HLA-A2, HLA-A24 or HLA-B44, identification of this CTL epitope presented by the HLA-A*2402 molecule will extend the application of MAGE-3-derived peptides for immunotherapy for cancer patients.     

A newly identified MAGE-3-derived, HLA-A24-restricted peptide is naturally processed and presented as a CTL epitope on MAGE-3-expressing gastrointestinal cancer cells

PURPOSE: In order to broaden the possibility for anti-MAGE-3 immune targeting, it is important to identify HLA-A24-restricted epitopes derived from MAGE-3, since HLA-A24 is one of the most common alleles in Japanese and Asian people. In the present study, we defined a new MAGE-3 derived, HLA-A24-binding peptide presented as a CTL epitope on gastrointestinal cancer cells. MATERIALS AND METHODS: A panel of MAGE-3-derived peptides (9mer and 10mer) with the HLA-A24-binding motif was selected, and identification of MAGE-3-derived, HLA-A24-restricted CTL epitopes was performed by a reverse immunology approach. To induce MAGE-3-peptide specific CTLs, PBMCs were repeatedly stimulated with monocyte-derived, mature DCs pulsed with the peptides. Subsequent peptide-induced T cells were tested for their specificities by ELISPOT, tetramer and cytotoxic assay. CTL clones were then obtained from the CTL line by limiting dilution. RESULTS: The peptide-inducing CTLs revealed that MAGE-3(113)-peptide was reacted as a CTL epitope in a HLA-A24-restricted fashion, confirmed by ELISPOT and cytotoxic assays. In addition, the MAGE-3(113)-specific CTL clones, confirmed by tetramer assay, showed that the MAGE-3(113) epitope is naturally processed and presented as the CTL epitope on MAGE-3-expressing gastrointestinal cancer cells by evaluating the cold target inhibition assays. CONCLUSION: The newly identified MAGE-3(113)-peptide epitope is naturally processed and presented as the CTL epitope on MAGE-3-expressing gastrointestinal cancer cells, indicating that anti-MAGE-3 immune targeting with the MAGE-3(113) peptide is a promising approach for treatment.     

HLA-A2-restricted CTL epitopes of a novel lung cancer-associated cancer testis antigen, cell division cycle associated 1, can induce tumor-reactive CTL

Toward the development of a novel cancer immunotherapy, we have previously identified several tumor-associated antigens (TAAs) and the epitopes recognized by human histocompatibility leukocyte (HLA)-A2/A24-restricted cytotoxic T lymphocyte (CTL). In this study, we tried to identify a TAA of lung cancer (LC) and its HLA-A2 restricted CTL epitopes to provide a target antigen useful for cancer immunotherapy of LC. We identified a novel cancer testis antigen, cell division cycle associated gene 1 (CDCA1), overexpressed in nonsmall cell LC using a cDNA microarray analysis. The expression levels of CDCA1 were also increased in the majority of small cell LC, cholangiocellular cancer, urinary bladder cancer and renal cell cancers. We used HLA-A2.1 transgenic mice to identify the HLA-A2 (A*0201)-restricted CDCA1 epitopes recognized by mouse CTL, and we investigated whether these peptides could induce CDCA1-reactive CTLs from the peripheral blood mononuclear cells (PBMCs) of HLA-A2-positive donors and a NSCLC patient. Consequently, we found that the CDCA1(65-73) (YMMPVNSEV) peptide and CDCA1(351-359) (KLATAQFKI) peptide could induce peptide-reactive CTLs in HLA-A2.1 transgenic mice. In HLA-A2(+) donors, in vitro stimulation of PBMC with these peptides could induce peptide-reactive CTLs which killed tumor cell lines endogenously expressing both HLA-A2 and CDCA1. As a result, CDCA1 is a novel cancer-testis antigen overexpressed in LC, cholangiocellular cancer, urinary bladder cancer and renal cell cancers, and CDCA1 may therefore be an ideal TAA useful for the diagnosis and immunotherapy of these cancers.     

肿瘤抗原MAGE-12新的HLA-A2限制性细胞毒性T细胞表位的预测

目的预测黑色素瘤抗原MAGE-12的HLA—A2限制性CTL表位。方法采用SYFPEITHI超基序远程预测系统与量化基序多项式法、延展基序联合应用，筛选MAGE-12抗原HLA—A0201限制性CTL表位。结果共预测出5个MAGE-12抗原HLA—A2限制性CTL表位。结论超基序法与量化基序，延展基序联合应用可以提高预测效率，为实验方法探索MAGE-12的表位提供有用线索。     

Identification of alpha-fetoprotein-derived peptides recognized by cytotoxic T lymphocytes in HLA-A24+ patients with hepatocellular carcinoma

Alpha-fetoprotein (AFP) has been proposed as a potential target forT-cell-based immunotherapy for hepatocellular carcinoma (HCC), but the number of its epitopes that have been identified is limited and the status of AFP-specific immunological responses in HCC patients has not been well-characterized. To address the issue, we examined the possibility of inducing AFP-specific cytotoxic T cells (CTLs) using novel HLA-A*2402-restricted T-cell epitopes (HLA, human leukocyte antigen) derived from AFP and then analyzed the relationship between its frequency of occurrence and clinical features associated with patients having HCC. Five AFP-derived peptides containing HLA-A*2402 binding motifs and showing high binding affinity to HLA-A*2402 induced CTLs to produce IFN-gamma and kill an AFP-producing hepatoma cell line. The frequency of AFP-specific CTLs was 30-190 per 1 x 10(6) peripheral blood mononuclear cells, which was the same as that of other immunogenic cancer associated antigen-derived epitopes. Analyses of the relationships between AFP-specific CTL responses and clinical features of patients with HCC revealed that AFP epitopes were more frequently recognized by CTLs in patients with advanced HCC correlating to tumor factors or the stage of TNM classification. The analyses of CTL responses before and after HCC treatments showed that the treatments changed the frequency of AFP-specific CTLs. In conclusion, we identified five HLA-A*2402-restricted T-cell epitopes derived from AFP. The newly identified AFP epitopes could be a valuable component of HCC immunotherapy and for analyzing host immune responses to HCC.     

Identification of HLA-A2- or HLA-A24-restricted CTL epitopes possibly useful for glypican-3-specific immunotherapy of hepatocellular carcinoma.

PURPOSE AND EXPERIMENTAL DESIGN: We previously reported that glypican-3 (GPC3) was overexpressed, specifically in hepatocellular carcinoma (HCC) and melanoma in humans, and it was useful as a novel tumor marker. We also reported that the preimmunization of BALB/c mice with dendritic cells pulsed with the H-2K(d)-restricted mouse GPC3(298-306) (EYILSLEEL) peptide prevented the growth of tumor-expressing mouse GPC3. Because of similarities in the peptide binding motifs between H-2K(d) and HLA-A24 (A*2402), the GPC3(298-306) peptide therefore seemed to be useful for the immunotherapy of HLA-A24+ patients with HCC and melanoma. In this report, we investigated whether the GPC3(298-306) peptide could induce GPC3-reactive CTLs from the peripheral blood mononuclear cells (PBMC) of HLA-A24 (A*2402)+ HCC patients. In addition, we used HLA-A2.1 (HHD) transgenic mice to identify the HLA-A2 (A*0201)-restricted GPC3 epitopes to expand the applications of GPC3-based immunotherapy to the HLA-A2+ HCC patients. RESULTS: We found that the GPC3(144-152) (FVGEFFTDV) peptide could induce peptide-reactive CTLs in HLA-A2.1 (HHD) transgenic mice without inducing autoimmunity. In five out of eight HLA-A2+ GPC3+ HCC patients, the GPC3(144-152) peptide-reactive CTLs were generated from PBMCs by in vitro stimulation with the peptide and the GPC3(298-306) peptide-reactive CTLs were also generated from PBMCs in four of six HLA-A24+ GPC3+ HCC patients. The inoculation of these CTLs reduced the human HCC tumor mass implanted into nonobese diabetic/severe combined immunodeficiency mice. CONCLUSION: Our study raises the possibility that these GPC3 peptides may therefore be applicable to cancer immunotherapy for a large number of HCC patients.     

Establishment of an HLA-A*0201 human papillomavirus type 16 tumor model to determine the efficacy of vaccination strategies in HLA-A*0201 transgenic mice

With the increasing generation of new cancer vaccine strategies, there is also an increasing demand for preclinical models that can carefully predict the efficacy of these vaccines in humans. However, the only tumor models available to study vaccines against human papillomavirus (HPV) 16 have been developed in C57BL/6 mice. To test the HLA-restricted capabilities of vaccination strategies, it is important to establish a tumor model in HLA-A*0201 transgenic mice. By transfecting heart lung fibroblasts from HLA-A*0201 mice with HPV16 E6 and E7 oncogenes and H-Ras V12, we have generated a transgenic cell line that is tumorigenic in HLA-A*0201 mice. The dominant H-2D(b) HPV16 E7 epitope was removed from the E7 construct to ensure that all antitumor responses were mediated through the HLA-A*0201-restricted epitopes. We used this tumor model to test the efficacy of two genetic vaccines: a plasmid DNA multi-epitope vaccine encoding human epitopes of HPV16, and a Venezuelan equine encephalitis (VEE) virus-based vector to deliver HPV16 E6 and E7 RNA. We show that both our multi-epitope DNA- and VEE-based vaccines protect 100% of HLA-A*0201 transgenic mice from tumor challenge and elicit a specific T-cell response against multiple HLA-A*0201-restricted HPV16 epitopes. Furthermore, both vaccines significantly decreased tumor burden when tested therapeutically. In conclusion, this is the first tumor model that allows for the assessment of the potential of a vaccine to induce HPV-directed, HLA-A*0201-restricted, antitumor responses in mice. These results pave the way for the clinical evaluation of these vaccines.     

Analysis of individual specific cytotoxic T lymphocytes for two MAGE-3-derived epitopes presented by HLA-A24

BACKGROUND: The human MAGE-3 gene encodes tumor-specific antigens that are recognized by cytotoxic T lymphocytes (CTLs) and expressed in a high percentage of various malignant tumors. Of the five MAGE-3-derived CTL epitopes identified to date, two nonapeptides (TFPDLESEF and IMPKAGLLI, designated MAGE-3.A24a and MAGE-3.A24b, respectively) can be expressed on the tumor surface by binding to the HLA-A24 molecule, which is the most frequent HLA class I molecule in Asian populations. To compare the immunogenecities of the two peptides, individual specific CTL lines were generated for each peptide (MAGE-3.A24a and MAGE-3.A24b). METHODS: Peripheral blood mononuclear cells (PBMCs) from four HLA-A24+ healthy donors were stimulated in vitro with autologous dendritic cells pulsed with MAGE-3.A24a, MAGE-3.A24b or both and were subsequently cultivated with a cytokine combination including interleukin-2. RESULTS: We succeeded in generating peptide-specific CTL lines in two of the four donors. The two CTL lines showed similar cytolytic levels against three MAGE-3+/HLA-A24+ cancer cell lines and also target cells pulsed with the corresponding peptide. Cytolytic activities were blocked by either anti-CD8 or anti-HLA-A24 monoclonal antibodies. CONCLUSIONS: The results suggest that MAGE-3.A24a and MAGE-3.A24b peptides have equal potential in inducing MAGE-3-specific and HLA-A24-restricted CTLs.     

Prediction and analysis of HLA-A2/A24-restricted cytotoxic T-lymphocyte epitopes of the tumor antigen MAGE-n using the artificial neural networks method on NetCTL1.2 Server

Cancer immunotherapy has become one of the most important therapeutic approaches to cancer in the past two decades. Tumor antigen-derived peptides have been widely used to elicit tumor-specific cytotoxic T lymphocytes (CTLs). Antigen-specific CTLs induced by MAGE-derived peptides have proven to be highly efficacious in the prevention and treatment of various types of tumor. MAGE-n is a new member of the MAGE gene family and has been shown to be closely associated with hepatocellular carcinoma. It is highly homologous to the MAGE-A gene subfamily, particularly to MAGE-3 (93%). MAGE-n-derived peptide QLVFGIEVV is a novel HLA-A2.1-restricted CTL epitope that induces MAGE-n-specific CTLs in vitro. Identification of these CTL epitopes may lead to clinical applications of these peptides as cancer vaccines for patients with MAGE-n(+)/HLA-A2(+) tumors. In the present study, HLA-A/A24-restricted CTL epitopes of antigen MAGE-n were predicted using the NetCTL1.2 Server on the web, COMB >0.85. The results showed that the NetCTL1.2 Server prediction method improved prediction efficacy and accuracy. Additionally, 8 HLA-A2- and 9 HLA-A24-restricted CTL epitope candidates (nonamers) derived from the tumor antigen MAGE-n were predicted. These nonamers, following identification via experimentation, may contribute to the development of potential antigen peptide tumor vaccines.     

Histocompatibility Leukocyte Antigen-A2402-restricted Cytotoxic T Lymphocytes Recognizing Adenocarcinoma in Tumor-infiltrating Lymphocytes of Patients with Colon Cancer

To cast light on T cell-mediated specific immunity at the tumor site of colon cancer, we investigated whether interleukin-2 (IL-2)-activated tumor-infiltrating lymphocytes (TIL) from colon cancer show histocompatibility leukocyte antigen (HLA)-class I-restricted cytotoxicity against adenocarcinoma. IL 2-activated TIL from all four HLA-A24 patients examined lysed HLA-A2402+ adenocarcinomas, but not HLA-A2402 tumors. Those of two of the four cases also lysed HLA-A2402⁺ squamous cell carcinomas. CD8⁺ cytotoxic T lymphocyte (CTL) clones recognizing HLA-A2402⁺ adenocarcinomas were established from one CTL line. This CTL line produced IFN-γ upon recognition of an HLA-A2402^- adenocarcinoma transfected with HLA-A2402 cDNA. These results suggest the presence of HLA-A2402-restricted CTL recognizing adenocarcinoma at the tumor site of colon cancer. Furthermore, HLA-A31-restricted CTL activity was found in IL-2-activated TIL from one of two HLA-A31⁺ patients, suggesting the existence of HLA-class I-restricted CTL involving an allele other than A24     

Inhibition of tumor growth with antiangiogenic cancer vaccine using epitope peptides derived from human vascular endothelial growth factor receptor 1.

PURPOSE: Antiangiogenic therapy is now considered to be one of promising approaches to treat various types of cancer. In this study, we examined the possibility of developing antiangiogenic cancer vaccine targeting vascular endothelial growth factor receptor 1 (VEGFR1) overexpressed on endothelial cells of newly formed vessels in the tumor. EXPERIMENTAL DESIGN: Epitope-candidate peptides were predicted from the amino acid sequence of VEGFR1 based on their theoretical binding affinities to the corresponding HLAs. The A2/Kb transgenic mice, which express the alpha1 and alpha2 domains of human HLA-A*0201, were immunized with the epitope candidates to examine their effects. We also examined whether these peptides could induce human CTLs specific to the target cells in vitro. RESULTS: The CTL responses in A2/Kb transgenic mice were induced with vaccination using identified epitope peptides restricted to HLA-A*0201. Peptide-specific CTL clones were also induced in vitro with these identified epitope peptides from peripheral blood mononuclear cells donated by healthy volunteers with HLA-A*0201. We established CTL clones in vitro from human peripheral blood mononuclear cells with HLA-A*2402 as well. These CTL clones were shown to have potent cytotoxicities in a HLA class I-restricted manner not only against peptide-pulsed target cells but also against target cells endogenously expressing VEGFR1. Furthermore, immunization of A2/Kb transgenic mice with identified epitope peptides restricted to HLA-A*0201 was associated with significant suppression of tumor-induced angiogenesis and tumor growth without showing apparent adverse effects. CONCLUSIONS: These results strongly suggest that VEGFR1 is a promising target for antiangiogenic cancer vaccine and warrants further clinical development of this strategy.     

联合表位肽诱导HLA-A2+人PBMC产生抗原特异性CTL及杀伤活性研究

目的:探讨MAGE-3,MAGE-n抗原表位体外联合诱导的CTL,并研究其特异性杀伤活性。方法:候选抗原表位以固相多肽合成技术合成,并用HPLC进行纯化,质谱法(MS)鉴定,以流式细胞仪筛选HLA-A2 人外周血PBMC,T2细胞负载抗原肽反复刺激活化诱导抗原特异性CTL,LDH检测其杀伤活性。结果:联合表位肽体外刺激人PBMC,能够较强地诱导抗原特异性CTL并产生特异性杀伤。结论:MAGE-3与MAGE-n的HLA-A2限制性CTL表位肽的联合应用能够产生较强的体外抗肿瘤免疫反应。     

Inducible Hsp70 as target of anticancer immunotherapy: Identification of HLA-A*0201-restricted epitopes

The design of a broad application tumor vaccine requires the identification of tumor antigens expressed in a majority of tumors of various origins. We questioned whether the major stress-inducible heat shock protein Hsp70 (also known as Hsp72), a protein frequently overexpressed in human tumors of various histological origins, but not in most physiological normal tissues, constitutes a tumor antigen. We selected the p391 and p393 peptides from the sequence of the human inducible Hsp70 that had a high affinity for HLA-A*0201. These peptides were able to trigger a CTL response in vivo in HLA-A*0201-transgenic HHD mice and in vitro in HLA-A*0201+ healthy donors. p391- and p393-specific human and murine CTL recognized human tumor cells overexpressing Hsp70 in a HLA-A*0201-restricted manner. Tetramer analysis of TILs showed that these Hsp70 epitopes are targets of an immune response in many HLA-A*0201+ breast cancer patients. Hsp70 is a tumor antigen and the Hsp70-derived peptides p391 and p393 could be used to raise a cytotoxic response against tumors of various origins.     

A new murine tumor model for studying HLA-A2-restricted anti-tumor immunity

HLA-A2/K(b) transgenic mice have been powerful tools for studying HLA-A2-restricted anti-tumor immunity. Two tumor lines were established from an aged HLA-A2/K(b) transgenic mouse that developed spontaneous tumors in the right limb and lung. Histopathologic analysis of the tumor was consistent with an osteosarcoma that had metastasized to the lung. The cells from the primary tumor and the lung metastasis were adapted to culture and are designated Ag201P and Ag201M, respectively. Both Ag201P and Ag201M induced tumors in mice, indicating that the established cell lines are tumorigenic. Both tumor lines expressed HLA-A2/K(b) as assessed by RT-PCR and immunofluorescence analysis. Furthermore, the HLA-A2/K(b) molecules were functional on both tumor lines as demonstrated by their ability to present exogenously loaded HLA-A2-restricted peptides to human HLA-A2-restricted T cells. More importantly, endogenously expressed HLA-A2-restricted epitopes were processed and presented in the context of HLA-A2/K(b) in Ag201P and Ag201M cells to human HLA-A2-restricted T cells. Thus, Ag201P and Ag201M are two new murine tumor lines that express functional HLA-A2/K(b), and represent potentially invaluable tools to study HLA-A2-restricted anti-tumor immunity in mice.     

Identification of an epitope derived from CML66, a novel tumor-associated antigen expressed broadly in human leukemia, recognized by human leukocyte antigen-A*2402-restricted cytotoxic T lymphocytes

CML66 is a newly identified differentiation antigen that is expressed broadly in human leukemia and solid tumors, but its physiological function remains unknown. In the present study, to clarify the feasibility of CML66-targeted cancer immunotherapy, we attempted to identify cytotoxic T lymphocyte (CTL) epitopes derived from CML66. An immunogenic CML66-derived epitope (amino acid residues 76–84; YYIDTLGRI) capable of inducing human leukocyte antigen (HLA)-A*2402-restricted CTL specific for this peptide was identified. CML66-derived peptide-specific CTL efficiently lysed human leukemia cells, but not normal cells, in a HLA-A*2402-restricted fashion. Quantitative real-time polymerase chain reaction revealed that CML66 mRNA is expressed abundantly in primary acute myeloid leukemia cells, acute lymphoid leukemia cells, and chronic myelogenous leukemia cells in advanced phase, and that the expression level of CML66 mRNA in normal cells is low compared with that in leukemia cells. CML66-specific CTL precursors were detected in the peripheral blood of patients with acute leukemia. These data indicate that the CML66-derived epitope identified in the present study is a new target antigen for cellular immunotherapy of human leukemia. ( Cancer Sci 2008; 99: 1414–1419)     

Peptides derived from human insulin-like growth factor-II mRNA binding protein 3 can induce human leukocyte antigen-A2-restricted cytotoxic T lymphocytes reactive to cancer cells

Insulin-like growth factor-II mRNA binding protein 3 (IMP-3) is an oncofetal protein expressed in various malignancies including lung cancer. This study aimed to identify immunogenic peptides derived from IMP-3 that can induce tumor-reactive and human leukocyte antigen (HLA)-A2 (A*02:01)-restricted cytotoxic T lymphocytes (CTL) for lung cancer immunotherapy. Forty human IMP-3-derived peptides predicted to bind to HLA-A2 were analyzed to determine their capacity to induce HLA-A2-restricted T cells in HLA-A2.1 (HHD) transgenic mice (Tgm). We found that three IMP-3 peptides primed HLA-A2-restricted CTL in the HLA-A2.1 Tgm. Among them, human CTL lines reactive to IMP-3 (515) NLSSAEVVV(523) were reproducibly established from HLA-A2-positive healthy donors and lung cancer patients. On the other hand, IMP-3 (199) RLLVPTQFV(207) reproducibly induced IMP-3-specific and HLA-A2-restricted CTL from healthy donors, but did not sensitize CTL in the HLA-A2.1 Tgm. Importantly, these two IMP-3 peptide-specific CTL generated from healthy donors and cancer patients effectively killed the cancer cells naturally expressing both IMP-3 and HLA-A2. Cytotoxicity was significantly inhibited by anti-HLA class I and anti-HLA-A2 monoclonal antibodies, but not by the anti-HLA-class II monoclonal antibody. In addition, natural processing of these two epitopes derived from the IMP-3 protein was confirmed by specific killing of HLA-A2-positive IMP-3-transfectants but not the parental IMP-negative cell line by peptide-induced CTL. This suggests that these two IMP-3-derived peptides represent highly immunogenic CTL epitopes that may be attractive targets for lung cancer immunotherapy.     

Ring finger protein 43 as a new target for cancer immunotherapy.

We have performed genome-wide exploration by using cDNA microarray profiling, and successfully identified a new tumor-associated antigen (TAA) that can induce potent cytotoxic T lymphocytes (CTLs) specific to tumor cells. In our preceding study, we identified multiple new genes by using gene expression profiling with a genome-wide cDNA microarray containing 23,040 genes. Among them, we selected RNF43 (ring finger protein 43) as a promising candidate for a TAA expressed by colon cancer cells. In this study, we examined whether the RNF43 protein contains antigenic epitope peptides restricted to HLA-A*0201 or HLA-A*2402. The CTL clones were successfully induced with stimulation by using the peptides binding to HLA-A*0201 (ALWPWLLMA and ALWPWLLMAT) and HLA-A*2402 (NSQPVWLCL), and these CTL clones showed the cytotoxic activity specific to not only the peptide-pulsed targets but also the tumor cells expressing RNF43 and respective HLAs. Lytic activities mediated by two HLA-A2-restricted epitopes were marginal, whereas tumor lysis mediated by the HLA-A24 epitope was clearly better. These findings might be caused by the poor natural presentation of RNF43-11(IX) and RNF43-11(X) by tumors or poor T-cell receptor avidity for these specific epitopes. These results strongly suggest that RNF43 is a new TAA of colon cancer. Furthermore, these results also suggest that our strategy might be a promising one to efficiently discover clinically useful TAAs.     

Identification of a new MAGE-A10 antigenic peptide presented by HLA-A*0201 on tumor cells

MAGE-A antigens belong to cancer/testis (CT) antigens that are expressed in tumors but not in normal tissues with the exception of testis and placenta. Among MAGE-A antigens, MAGE-A10 is extensively expressed in various histological types of tumors, representing an attractive target for tumor immunotherapy. Cytotoxic T lymphocytes (CTLs) play a key role in anti-tumor immune responses, so the identification of CTL epitopes derived from MAGE-A10 would contribute a lot to the design of epitope-based vaccines for tumor patients. In this study, we predicted HLA-A*0201-restricted CTL epitope peptides of MAGE-A10, followed by peptide/HLA-A*0201 binding affinity and complex stability assays, and induced peptide-specific CTL immune responses. Of the selected three peptides (designated P1, P2 and P3), P1 (MAGE-A10310-318, SLLKFLAKV) could elicit peptide-specific CTLs both in vitro from HLA-A*0201-positive PBMCs and in HLA-A*0201/Kb transgenic mice. And, the induced CTLs could lyse MAGE-A10-expressing tumor cells in a HLA-A*0201-restricted fashion but not MAGE-A10-negative tumor cells. Our results demonstrate that the peptide MAGE-A10310-318 is a HLA-A*0201-restricted CTL epitope of MAGE-A10 and could serve as a target for therapeutic antitumoral vaccination.     

Cancer immunotherapy in head and neck region

There is no one common immunotherapy for the treatment of head and neck cancer (H&N cancer). A streptococcal agent, OK-432, which is classified as a biological response modifier (BRM), is occasionally used by means of local administration for recurrent H&N cancer, and the response rate is approximately 18%. In regard to specific immunotherapy, a murine monoclonal antibody (named mAb 225) against the epidermal growth factor receptor (FGFR) that is frequently overexpressed in H&N cancer has been produced in the U.S.A. Furthermore, to obviate human anti-mouse antibody responses, a chimeric human-to-murine version of mAb 225 (C225) was developed by exchanging the constant regions of mAb 225 to counterparts in human immune globulin. Phase I clinical trials of C225 in the U.S.A. demonstrated that treatment with C225 was well tolerated and that C225 given in combination with cisplatin has biologic activity. On the other hand, many tumor antigens recognized by cytotoxic T lymphocytes (CTL) have been identified from a variety of malignant tumors and some of them, including the MAGE-3 antigen, are frequently expressed in H&N cancer. We identified an MAGE-3-derived epitope recognized by HLA-A24-restricted CTL from peripheral blood mononuclear cells (PBMC). In contrast we failed to generate CTL specific for MAGE-3+/HLA-A24+ tumors from PBMC in any of 5 HLA-A24+ cancer patients whose tumors expressed the MAGE-3 gene. Therefore, we did not apply MAGE-3-derived CTL epitope in clinical uses such as peptide vaccine and peptide pulsed dendritic cell infusion for H&N cancer.