Expression of Tumor-rejection Antigens in Gynecologic Cancers

We recently reported the four tumor-rejection antigens (SART1₂₅₉ SART2, SART3, and ART4) that possess tumor epitopes capable of inducing HLA-A2402-restricted cytotoxic T lymphocytes (CTLs) in cancer patients. This study investigated the expression of these tumor antigens in gynecologic cancers, including 33 ovarian cancers, 38 cervical cancers, and 40 endometrial cancers. SART1₂₅₉ antigen was detected in 56%, 35%, and 30% of ovarian, cervical and endometrial cancers, while SART2 antigen was detected in 46%, 66%, and 30% of these cancers, respectively. Both SART3 and ART4 antigens were detectable in the majority of these gynecologic cancers tested. In contrast, none of these antigens was detectable in any of the normal ovarian and uterine tissues tested. Peripheral blood mononuclear cells (PBMCs) of HLA-A24⁺ patients with gynecologic cancers were found to produce significant levels of interferon-γ in response to HLA-A24⁺ SART3⁺ gynecologic cancer cells after having been stimulated three times in vitro with either SART3_109–118 or SART3_315–323 peptide. These PBMCs lysed HLA-A24⁺ SART3⁺ gynecologic cancer cells, but not HLA-A24^- SART3⁺ gynecologic cancer cells or HLA-A24⁺ normal cells. Therefore, these four antigens and their peptides, including SART3 peptides, would be appropriate molecules for use in specific immunotherapy of HLA-A24⁺ gynecologic cancer patients.     

Expression of SART3 tumor-rejection antigen in gastric cancers.

We previously reported SART3 as a tumor-rejection antigen recognized by histocompatibility leukocyte antigen (HLA)-A24-restricted cytotoxic T lymphocytes (CTLs). In this study, we investigated the expression of the SART3 antigen in gastric cancers, as a candidate for use in specific immunotherapy. The SART3 antigen was detected in 9 of 10 (90%) gastric cancer cell lines, 35 of 52 (67.3%) gastric cancer tissues, and 0 of 20 non-tumorous gastric tissues. SART3-derived peptides corresponding to positions 109- 118 and 315-323 induced HLA-A24-restricted and tumor-specific CTLs from peripheral blood mononuclear cells (PBMCs) of gastric cancer patients. These peptide-induced CTLs recognized HLA-A24(+) SART3(+) gastric cancer cells, but not HLA-A24(+) SART3(-) or HLA-A24(-) SART3(+) gastric cancer cells. Therefore, the SART3 peptides could be useful in specific immunotherapy of gastric cancer patients.     

Identification of Cyclophilin B-derived Peptides Capable of Inducing Histocompatibility Leukocyte Antigen-A2-restricted and Tumor-specific Cytotoxic T Lymphocytes

We recently suggested that cyclophilin B (Cyp-B) is a tumor antigen recognized by histocompatibility leukocyte antigen (HLA)-A24-restricted and tumor-specific cytotoxic T lymphocytes (CTLs). In this study, we tried to identify Cyp-B-derived epitopes, which can induce HLA-A2-restricted and tumor-specific CTLs in cancer patients. The tumor-infiltrating lymphocytes (TILs) from an HLA-A0207 patient with colon cancer were found to respond to COS-7 cells when co-transfected with the Cyp-B gene and either HLA-A0201, -A0206 , or - A0207 cDNA. These TILs contained CTLs capable of recognizing either the Cyp-B_129–138 or the Cyp-B_172–179 peptide among 28 different peptides, all of which were prepared based on the HLA-A2 binding motif. Both Cyp-B peptides possessed the ability to induce tumor-specific CTLs in HLA-A2⁺ cancer patients. Cyp-B_{172–180 (v)}, which is a 9-mer peptide with valine added at the C terminus, showed no clear superiority over the parental Cyp-B_172-179 peptide in an in vitro sensitization experiment. In vitro -sensitized T cells with these peptides responded to cancer cells in an HLA-A2-restricted manner. These two Cyp-B peptides could be useful for specific immunotherapy of HLA-A2⁺ cancer patients.     

Identification of a prostate-specific membrane antigen-derived peptide capable of eliciting both cellular and humoral immune responses in HLA-A24+ prostate cancer patients

We tried to identify prostate-specific membrane antigen (PSMA)-derived peptides capable of eliciting both cellular and humoral immune responses in peripheral blood mononuclear cells (PBMCs) and plasma of HLA-A24⁺ prostate cancer patients, respectively. For cellular response, peptide-specific and prostate cancer-reactive responses of in vitro -stimulated PBMCs were examined with regard to interferon (IFN)-γ production and cytotoxicity against both a parental HLA-A24⁻ prostate cancer cell line (PC-93) and an HLA-A24-expressing transfectant cell line (PC93-A24). For humoral response, patients' plasma was tested for reactivity to the peptides by means of an enzyme-linked immunosorbent assay (ELISA). Among 13 PSMA peptides, PSMA 624–632 peptide induced peptide-specific and tumor-reactive cytotoxic T lymphocytes (CTLs) most effectively. The PSMA 624–632 peptide-stimulated PBMCs from either healthy donors or prostate cancer patients produced a significant level of IFN-γ in response to prostate cancer cells in an HLA-A24-restricted manner, and also showed a higher level of cytotoxicity against PC93-A24 than against PC93. Antibodies to the PSMA 624–632 peptide, but not to any others, were detected in prostate cancer patients. These results demonstrate that the PSMA 624–632 peptide could be an appropriate molecule for use in specific immunotherapy of HLA-A24⁺ patients with prostate cancer.     

Induction of Cytotoxic T Lymphocytes from Peripheral Blood of Human Histocompatibility Antigen (HLA)-A31+ Gastric Cancer Patients by in vitro Stimulation with Antigenic Peptide of Signet Ring Cell Carcinoma

Antigenic peptides have been used as a cancer vaccine in melanoma patients and have led to a drastic regression of metastatic tumors. However, few antigens have been identified in non-melanoma tumors. We recently purified a new natural antigenic peptide, designated F4.2, by biochemical elution from a human gastric signet cell carcinoma cell line and showed that it is recognized by an autologous human histocompatibility antigen (HLA)-A31-restricted cytotoxic T lymphocyte (CTL) clone. Here we describe in vitro induction of F4.2-specific CTLs from peripheral blood T lymphocytes of HLA-A31⁺ gastric cancer patients. The T cells of seven HLA-A31⁺ patients with gastric cancers were stimulated in vitro by F4.2-pulsed autologous dendritic cells which had been induced from peripheral blood of each patient by incubation in the presence of granulocyte macrophage colony-stimulating factor (GM-CSF) and IL-4. We tested the cytotoxicity of the T cells against F4.2-loaded C1R-A *31012 by a 6-h ⁵¹Cr release assay after 3 stimulations with F4.2-pulsed dendritic cells. F4.2-specific cytotoxicity was detectable in the stimulated T cells from two of the seven HLA-A31⁺ patients. Further, both F4.2-specific CTLs also lysed the gastric cancer cell line, HST-2, from which F4.2 was derived. These results suggest that F4.2 peptide may be useful as an HLA-A31-restricted peptide vaccine in certain patients with gastric cancer.     

Identification of SART3-derived peptides capable of inducing HLA-A2-restricted and tumor-specific CTLs in cancer patients with different HLA-A2 subtypes

We recently identified the SART3 antigen encoding shared tumor epitopes recognized by HLA-A2402-restricted and tumor-specific CTLs. Our study investigated whether the SART3 antigen encodes peptides recognized by the HLA-A2-restricted CTLs. The HLA-A2-restricted and tumor-specific CTL line recognized COS-7 cells co-transfected with the SART3 gene and either HLA-A0201, -A0206 or -A0207 cDNA but not those co-transfected with the SART3 gene and HLA-A2402 or -A2601 cDNA. The 2 SART3 peptides at positions 302 to 310 and 309 to 317 possessed the ability to induce HLA-A2-restricted and tumor-specific CTLs from peripheral blood mononuclear cells of cancer patients with various histological types and different HLA-A2 subtypes. Therefore, these 2 peptides could be useful for specific immunotherapy of a relatively large number of HLA-A2(+) cancer patients.     

Expression of tumor rejection antigens in colorectal carcinomas

BACKGROUND: The authors recently reported that the SART2 and SART3 antigens encode tumor epitopes recognized by HLA-A24-restricted and tumor-specific cytotoxic T lymphocytes (CTLs) established from esophageal carcinoma patients. The current study investigated these antigens to explore a potential molecule for specific immunotherapy for colorectal carcinoma patients. METHODS: The SART2 and SART3 antigens were investigated by Western blotting in colorectal carcinoma cell lines and in cancer tissues. For induction of CTLs, peripheral blood mononuclear cells (PBMCs) of HLA A-24-positive cancer patients were stimulated in vitro with peptides. RESULTS: The 140 kD SART3 antigen was expressed in both the cytosol and nuclear fractions of all six colon carcinoma cell lines, 27 of 41 (65.9%) cytosol fractions, 30 of 41 (73.2%) nuclear fractions of colorectal carcinoma tissue samples, and in 0 of 7 non-tumorous tissues. The 100 kD SART2 antigen was expressed in the cytosol fractions of 2 of 6 colon carcinoma cell lines, 5 of 20 (25%) cytosol fractions of colorectal carcinoma tissue samples, and in 0 of 7 non tumorous tissues. HLA-A24-restricted CTLs cytotoxic to colon carcinoma cells were induced from PBMCs of colon carcinoma patients by stimulation with the two immunogenic peptides of SART3. CONCLUSIONS: The SART3 antigen could be an appropriate target molecule for specific immunotherapy for colorectal carcinoma patients.     

Expression of the SART1 tumor-rejection antigen in hepatocellular carcinomas

We previously reported a tumor-rejection antigen, SART1259, possessing tumor epitopes capable of inducing cytotoxic T lymphocytes (CTL) in epithelial cancer patients. The present study investigated the expression of the SART1259 antigen in hepatocellular carcinomas (HCC) in order to explore for a potential molecule for use in specific immunotherapy of HCC patients. Expression of the SART1 antigens in samples was analyzed by western blot analysis with anti-SART1259 and anti-SART1800 polyclonal antibodies. In addition HLA-A24- restricted CTLs were induced from peripheral blood mononuclear cells (PBMCs) of HLA-A24+ HCC patients by the SART1690-698 (EYRGFTQDF) peptide with an HLA-A24 binding motif. The SART1259 antigen was detected in the cytoplasmic fraction of 6 of 8 HCC cell lines and 12 of 23 (52%) HCC tissues, but in none of the normal liver tissues or those of chronic hepatitis or cirrhosis. The HLA-A24 restricted and SART1-specific CTLs recognized the HLA-A24+ and SART1259+ HCC cells. Further, in peripheral blood mononuclear cells of HCC patients, the SART1690-698 peptide induced CTLs that reacted to the HCC cells in an HLA-A24-restricted manner. These results suggest that the SART1259 antigen could be an appropriate target molecule for use in specific immunotherapy of HCC patients.     

Serine Proteinase Inhibitor 9 Can Be Recognized by Cytotoxic T Lymphocytes of Epithelial Cancer Patients

Serine proteinase inhibitor 9 (PI–9) inhibits granzyme B-mediated apoptosis and interleukin–lβ-converting enzyme activity. In this study, we report that the PI–9 gene encodes antigenic epitopes recognized by the HLA-A24–restricted and tumor-reactive cytotoxic T lymphocytes (CTLs) of epithelial cancer patients. Screening of an autologous cDNA library using a CTL line recognizing HLA-A24⁺ tumor cells resulted in the isolation of a cDNA, which had an identical coding region to the previously described PI–9 genes. PI–9 gene was expressed in approximately three-fourths of epithelial cancer cell lines and all leukemic cell lines tested. It was also expressed in normal peripheral blood mononuclear cells (PBMCs), but not in a normal fibroblast cell line. CTL sublines contained T cells capable of recognizing the PI–9_292–300 and PI–9_348–356 peptides among 13 different peptides having the HLA-A24 binding motifs. These two peptides were recognized by the CTL line in a dose-dependent and HLA class-I-restricted manner, and also possessed the ability to induce HLA class I-restricted and tumor-reactive CTLs in PBMCs from HLA-A24⁺ cancer patients. These results demonstrate that PI–9 is recognized by HLA class I-restricted and tumor-reactive CTLs of epithelial cancer patients.     

Expression of the tumor-rejection antigen SART1 in brain tumors

We have reported a tumor-rejection antigen, SART1(259), possessing tumor epitopes capable of inducing cytotoxic T lymphocytes (CTLs) in epithelial-cancer patients. This study investigated the expression of SART1(259) antigen in brain tumors, to explore for a potential molecule for use in specific immunotherapy of patients with brain tumors. The SART1(259) antigen was detected in the cytosol fraction of 13 of 18 (72%) glioma cell lines and in 12 of 34 (35%) brain-tumor tissues, with a higher rate of expression among malignant gliomas (5/10, 50%) and schwannomas (3/4). HLA-A24-restricted and SART1-specific CTLs recognized the HLA-A24+ and SART1(259)+ glioma cells, and the levels of recognition correlated both with HLA-A24-antigen expression level and with the concentration of the SART1 peptide antigen. Therefore, the SART1(259) antigen could be a target molecule for specific immunotherapy of patients with brain tumors expressing HLA-class-1 antigens.     

Expression of the SART-1 Antigens in Uterine Cancers

We recently reported that the SART-1 gene, encoding the SART-1₂₅₉ tumor antigen which is recognized by HLA-A26-restricted cytotoxic T lymphocytes (CTLs), is expressed in the cytosol of squamous cell carcinomas and adenocarcinomas. The present study deals with the expression of SART-1₂₅₉ and SART-1₈₀₀ antigens in uterine cancers. The SART-1₂₅₉ antigen was detected in the cytosol fraction of 4 of 8 uterine cancer cell lines, 24 of 74 (32%) uterine cancer tissues, 0 of 7 uterine myomas, and 0 of 5 non-tumorous uterine tissues. The SART-1₈₀₀ antigen was expressed in the nuclear fraction of all the uterine cancer cell lines, 41 of 74 (55%) uterine cancer tissues, 0 of 7 myomas, and 3 of 5 non-tumorous uterine tissues. The SART-1₂₅₉⁺ uterine cancer cells were recognized by HLA-A24 restricted and SART-1 specific CTLs. Therefore, SART-1₂₅₉ antigen could be an appropriate vaccine candidate for a relatively large number of uterine cancer patients.     

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     

Erythropoietin-producing hepatocyte B6 variant-derived peptides with the ability to induce glioma-reactive cytotoxic T lymphocytes in human leukocyte antigen-A2+ glioma patients

We recently cloned a variant form of erythropoietin-producing hepatocyte (Eph)B6, a member of the Eph receptor tyrosine kinase family. In the present study, we examined the expression of the EphB6 variant (EphB6v) in a panel of brain tumor cell lines and glioblastoma tissues and we found that EphB6v was preferentially expressed in malignant brain tumors, such as glioblastomas and anaplastic astrocytomas. The EphB6v has a unique 54 amino acid sequence at the C-terminal that is not found in normal EphB6. Therefore, we attempted to identify antigenic peptides unique to EphB6v for immunotherapy. The two EphB6v-derived peptides exhibited the ability to bind to human leukocyte antigen (HLA)-A0201 molecules, and each of them was able to induce cytotoxic T lymphocytes in vitro in the peripheral blood mononuclear cells of HLA-A2⁺ glioma patients. The cytotoxicity was mediated by peptide-specific CD8⁺ T cells in an HLA-A2-restricted manner. The expression of EphB6v was also observed in different types of cancer (e.g. lung, colon, stomach, liver and pancreatic) cells. Taken together, the two peptides derived from EphB6v might be appropriate targets for peptide-based specific immunotherapy for HLA-A2⁺ patients with various cancers. ( Cancer Sci 2008; 99: 1656–1662)     

Expression of the SART1 tumor-rejection antigen in human osteosarcomas

We recently reported a tumor-rejection antigen, SART1259, possessing tumor epitopes capable of inducing cytotoxic T lymphocytes (CTLs). This study investigated the expression of SART1259 antigen in osteosarcoma and other skeletal malignant tumors to explore for a potential molecule for use in specific immunotherapy. The SART1259 antigen was detected in the cytosol fraction of 13 of 21 (62%) osteosarcoma cell lines and 3 of 8 (38%) osteosarcoma tissues, and 3 of 10 (30%) malignant fibrous histiocytoma (MFH) tissues. The HLA-A24+ and SART1259+ osteosarcoma cells were recognized by the HLA-A24 restricted and SART1 specific CTLs. These results raise a possibility that the SART1259 would be an appropriate molecule for use in specific immunotherapy of approximately one-third of HLA-A24+ patients with osteosarcoma and MFH.     

Ran, a small GTPase gene, encodes cytotoxic T lymphocyte (CTL) epitopes capable of inducing HLA-A33-restricted and tumor-reactive CTLs in cancer patients.

PURPOSE: The purpose is to identify a gene coding for tumor-associated antigen and peptide capable of inducing CTLs reactive to tumor cells with a HLA-A33-restricted fashion to provide scientific basis for specific immunotherapy to HLA-A33+ cancer patients. EXPERIMENTAL DESIGN: An expression gene-cloning method was used to identify the tumor-associated antigen gene. Northern blot analysis and immunohistochemistry were used to examine the mRNA and protein expression levels in various cells and tissues, respectively. Synthetic peptides were examined for their ability to induce HLA-A33+ tumor-reactive CTLs in peripheral blood mononuclear cells from cancer patients. RESULT: A gene of small GTPase, Ran, which controls the cell cycle through the regulation of nucleocytoplasmic transport, mitotic spindle organization, and nuclear envelope formation, was found to encode epitopes recognized by the HLA-A33-restricted CTLs established from T cells infiltrating into gastric adenocarcinoma. The expression of the Ran gene was increased in most cancer cell lines and cancer tissues at both the mRNA and protein levels. However, it was not enhanced in the surrounding normal cells or tissues. It was also undetectable in normal tissues as far as tested. Ran-derived peptides at positions 48-56 and 87-95 could induce CD8+ peptide-specific CTLs reactive to tumor cells from HLA-A33+ epithelial cancer patients in a HLA class I-restricted manner. CONCLUSIONS: Because of its increased expression in cancer cells and involvement in malignant transformation and/or the enhanced proliferation of cancer cells, the two Ran-directed peptides could be potent candidates in use for specific immunotherapy against HLA-A33+ epithelial cancers.     

Expression of tumor-rejection antigens in gynecologic cancers.

We recently reported the four tumor-rejection antigens (SART1(259), SART2, SART3, and ART4) that possess tumor epitopes capable of inducing HLA-A2402-restricted cytotoxic T lymphocytes (CTLs) in cancer patients. This study investigated the expression of these tumor antigens in gynecologic cancers, including 33 ovarian cancers, 38 cervical cancers, and 40 endometrial cancers. SART1(259) antigen was detected in 56%, 35%, and 30% of ovarian, cervical and endometrial cancers, while SART2 antigen was detected in 46%, 66%, and 30% of these cancers, respectively. Both SART3 and ART4 antigens were detectable in the majority of these gynecologic cancers tested. In contrast, none of these antigens was detectable in any of the normal ovarian and uterine tissues tested. Peripheral blood mononuclear cells (PBMCs) of HLA-A24(+) patients with gynecologic cancers were found to produce significant levels of interferon-gamma in response to HLA-A24(+) SART3(+) gynecologic cancer cells after having been stimulated three times in vitro with either SART3(109 - 118) or SART3(315 - 323) peptide. These PBMCs lysed HLA-A24(+) SART3(+) gynecologic cancer cells, but not HLA-A24(-) SART3(+) gynecologic cancer cells or HLA-A24(+) normal cells. Therefore, these four antigens and their peptides, including SART3 peptides, would be appropriate molecules for use in specific immunotherapy of HLA-A24(+) gynecologic cancer patients.     

Prognostic impact and immunogenicity of a novel osteosarcoma antigen, papillomavirus binding factor, in patients with osteosarcoma

To develop peptide-based immunotherapy for osteosarcoma, we previously identified papillomavirus binding factor (PBF) as a cytotoxic T lymphocytes (CTL)-defined osteosarcoma antigen in the context of human leukocyte antigen (HLA)-B55. In the present study, we analyzed the distribution profile of PBF in 83 biopsy specimens of osteosarcomas and also the prognostic impact of PBF expression in 78 patients with osteosarcoma who had completed the standard treatment protocols. Next, we determined the antigenic peptides from PBF that react with peripheral T lymphocytes of HLA-A24⁺ patients with osteosarcoma. Immunohistochemical analysis revealed that 92% of biopsy specimens of osteosarcoma expressed PBF. PBF-positive osteosarcoma conferred significantly poorer prognosis than those with negative expression of PBF ( P =  0.025). In accordance with the Bioinformatics and Molecular Analysis Section score, we synthesized 10 peptides from the PBF sequence. Subsequent screening with an HLA class I stabilization assay revealed that peptide PBF A24.2 had the highest affinity to HLA-A24. CD8⁺ T cells reacting with a PBF A24.2 peptide were detected in eight of nine HLA-A24-positive patients with osteosarcoma at the frequency from 5 × 10⁻⁷ to 7 × 10⁻⁶ using limiting dilution/mixed lymphocyte peptide culture followed by tetramer-based frequency analysis. PBF A24.2 peptide induced CTL lines from an HLA-A24-positive patient, which specifically killed an osteosarcoma cell line that expresses both PBF and HLA-A24. These findings suggested prognostic significance and immunodominancy of PBF in patients with osteosarcoma. PBF is the candidate target for immunotherapy in patients with osteosarcoma. ( Cancer Sci 2008; 99: 368–375)     

Expression of SART3 antigen and induction of CTLs by SART3-derived peptides in breast cancer patients

We recently reported the SART3 tumour-rejection antigen as possessing tumour epitopes capable of inducing HLA-class I-restricted cytotoxic T lymphocytes (CTLs). This study investigated expression of the SART3 antigen in breast cancer to explore an appropriate molecule for use in specific immunotherapy of breast cancer patients. The SART3 antigen was detected in all of the breast cancer cell lines tested, 30 of 40 (75%) breast cancer tissue samples, and 0 of 3 non-tumourous breast tissue samples. SART3 derived peptides at positions 109-118 and 315-323 induced HLA-A24 restricted CTLs that reacted to breast cancer cells from the peripheral blood mononuclear cells (PBMCs) of breast cancer patients. Therefore, the SART3 antigen and its peptides could be an appropriate molecule for use in specific immunotherapy of the majority of HLA-A24-positive breast cancer patients.     

Identification of a gene coding for a protein possessing shared tumor epitopes capable of inducing HLA-A24-restricted cytotoxic T lymphocytes in cancer patients.

Genes encoding tumor epitopes that are capable of inducing CTLs against adenocarcinomas and squamous cell carcinomas, two major human cancers histologically observed in various organs, have rarely been identified. Here, we report a new gene from cDNA of esophageal cancer cells that encodes a shared tumor antigen recognized by HLA-A2402-restricted and tumor-specific CTLs. The sequence of this gene is almost identical to that of the KIAA0156 gene, which has been registered in GenBank with an unknown function. This gene encodes a Mr 140,000 protein that is expressed in the nucleus of all of the malignant tumor cell lines tested and the majority of cancer tissues with various histologies, including squamous cell carcinomas, adenocarcinomas, melanomas, and leukemia cells. However, this protein was undetectable in the nucleus of any cell lines of nonmalignant cells or normal tissues, except for the testis. Furthermore, this protein was expressed in the cytosol of all of the proliferating cells, including normal cells and malignant cells, but not in normal tissues, except for the testis and fetal liver. Two peptides of this protein were recognized by HLA-A2402-restricted CTLs and were able to induce HLA-A24-restricted and tumor-specific CTLs from peripheral blood mononuclear cells of most of HLA-A24+ cancer patients tested, but not from peripheral blood mononuclear cells of any healthy donors. These peptides may be useful in specific immunotherapy for HLA-A24+ cancer patients with various histological types.     

Induction of cellular immune responses to tumor cells and peptides in colorectal cancer patients by vaccination with SART3 peptides.

The tumor-rejection antigen SART3 possesses two antigenic epitopes (SART3(109-118) and SART3(315-323)) capable of inducing HLA-A24-restricted and tumor-specific CTLs. To determine its safety and ability to generate antitumor immune responses, 12 patients with advanced colorectal cancer were administered s.c. vaccinations of these peptides. No severe adverse events were associated with the vaccinations. Significant levels of increased cellular immune responses to both HLA-A24+ colon cancer cells and the vaccinated peptide were observed in the postvaccination peripheral blood mononuclear cells in 7 of 11 and 7 of 10 patients tested, respectively, and the higher responses were observed in those patients vaccinated with the highest dose (3 mg/injection) of the peptides. These results encourage further development of SART3 peptide vaccine for colorectal cancer patients.