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.     

Identification of HLA-A*0201-restricted cytotoxic T lymphocyte epitope from TRAG-3 antigen.

PURPOSE: Identification of tumor antigen and subsequent identification of T-cell epitope from these antigens make specific immunotherapy for malignant tumor applicable. Because TRAG-3 antigen is expressed in most melanomas and 54% of non-small cell lung carcinomas and HLA-A2.1-expressing individuals cover >50% in the population of China, we aim at identifying TRAG-3-encoded peptide presented by HLA-A2.1. EXPERIMENTAL DESIGN: In our study, a HLA-A2.1-restricted CTL epitope was identified by using the following four-step procedure: (a) computer-based epitope prediction from the amino acid sequence of TRAG-3 antigen; (b) peptide-binding assay to determine the affinity of the predicted peptide with HLA-A2.1 molecule; (c) stimulation of primary T-cell response against the predicted peptides in vitro; and (d) testing of the induced CTLs toward LB373-MEL cells expressing TRAG-3 antigen and HLA-A2.1. RESULTS: Of the four tested peptides, effectors induced by a peptide of TRAG-3 at residue position 58-66 lysed LB373-MEL cells expressing both TRAG-3 and HLA-A2.1. Our results indicate that peptide TRAG-3(58 approximately 66) (ILLRDAGLV) is a new HLA-A2.1-restricted CTL epitope capable of inducing TRAG-3 specific CTLs in vitro. CONCLUSIONS: Because TRAG-3 is a cancer/testis antigen expressed in most melanomas and half of non-small cell lung carcinomas, identification of the TRAG-3/HLA-A2.1 peptide ILLRDAGLV may facilitate peptide-based specific immunotherapy for various histological tumors.     

Identification of new HLA-A*0201-restricted cytotoxic T lymphocyte epitopes from neuritin

Identification of cytotoxic T lymphocyte (CTL) epitopes from additional tumor antigens is essential for the development of specific immunotherapy of malignant tumors. Neuritin, a recently discovered antigen overexpressed in astrocytoma, is considered to be a promising target for biological therapy. In the present study, we predicted and identified HLA-A2-restricted CTL epitopes from neuritin by using the following four-step procedure: (1) computer-based epitope prediction from the amino acid sequence of neuritin; (2) peptide-binding assay to determine the affinity of the predicted peptide with HLA-A2.1 molecule; (3) stimulation of primary T cell response against the predicted peptides in vitro; and (4) testing of the induced CTLs toward target cells expressing neuritin and HLA-A2.1. The results demonstrated that effectors induced by peptides of neuritin containing residues 13–21, 121–129 and 4–12 could specifically-secrete interferon-γ and lyse target cells. Our results indicate that these peptides are new HLA-A2.1-restricted CTL epitopes, and may serve as valuable tools for astrocytoma immunotherapy.     

Identification of HLA-A24-restricted CTL epitope from cancer-testis antigen, NY-ESO-1, and induction of a specific antitumor immune response.

PURPOSE: For the development of peptide-based, cancer-specific immunotherapy, the identification of CTL epitopes from additional tumor antigens is very important. NY-ESO-1, a cancer-testis antigen, is considered to be a promising target of tumor-specific immunotherapy. Because HLA-A24-expressing individuals cover >60% in the population of Japan, we aim at identifying NY-ESO-1-encoded peptide presented by HLA-A24. EXPERIMENTAL DESIGN: In our study, a HLA-A24-restricted CTL epitope was identified by using the following four-step procedure: (a) computer-based epitope prediction from the amino acid sequence of NY-ESO-1 antigen; (b) peptide-binding assay to determine the affinity of the predicted peptide with HLA-A24 molecule; (c) stimulation of primary T-cell response against the predicted peptides in vitro; and (d) testing of the induced CTLs toward various carcinoma cells expressing NY-ESO-1 antigen and HLA-A24. RESULTS: Of the tested peptides, effectors induced by a peptide of NY-ESO-1 at residue position 158-166 lysed three kinds of carcinoma cells expressing both NY-ESO-1 and HLA-A24. Our results indicate that peptide NY-ESO-1 (158-166) (LLMWITQCF) is a new HLA-A24-restricted CTL epitope capable of inducing NY-ESO-1-specific CTLs in vitro mediating HLA class I-restricted manner. CONCLUSIONS: We identified a novel HLA-A24-restricted NY-ESO-1-derived epitope peptide (LLMWITQCF) that could induce specific CTLs from the peripheral blood mononuclear cells of HLA-A24(+) healthy donors. This peptide would be useful in further evaluating the clinical utility of peptide-based, cancer-specific immunotherapy against various histological tumors.     

Efficient induction of cytotoxic T lymphocytes specific to hepatocellular carcinoma using HLA-A2-restricted MAGE-n peptide in vitro

MAGE-n is a new member of MAGE gene family and has been demonstrated closely associated with hepatocellular carcinoma (HCC). In this study, MAGE-n-derived peptide-specific cytotoxic T lymphocytes (CTL) were induced from the peripheral blood mononuclear cells of healthy donors by multiple stimulations with HLA-A2-restricted MAGE-n peptide-pulsed T2 cells. The induced CTLs exhibited specific lysis against T2 cells pulsed with the peptide and HLA-A2+ HCC cells expressing MAGE-n, while HLA-A2+ HCC cell lines that did not express MAGE-n could not be recognized by the CTLs. The peptide-specific activity was inhibited by anti-MHC class I monoclonal antibody. These results suggested the MAGE-n peptide could be a potential target of specific immunotherapy for HLA-A2 patients with HCC.     

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。     

肝癌MAGE-n抗原HLA-A2限制性细胞毒性T细胞表位的预测

目的 预测肝癌MAGE—n抗原HLA—A2限制性细胞毒性T淋巴细胞(CTL)表位。方法 应用SYFPEITHI超基序多项式法远程预测系统和量化基序多项式法结合的预测方法，筛选MAGE—n抗原HLA—A2限制性CTL表位。结果 筛选到MAGE—n抗原5个HLA—A2限制性CTL表位(九肽)。结论 SYFPEITHI超基序法和量化基序多项式法结合的预测方法是一种高效和准确的表位预测方法。     

HLA-A2-Restricted Cytotoxic T Lymphocyte Epitopes from Human Heparanase as Novel Targets for Broad-Spectrum Tumor Immunotherapy

Peptide vaccination for cancer immunotherapy requires identification of peptide epitopes derived from antigenic proteins associated with tumors. Heparanase (Hpa) is broadly expressed in various advanced tumors and seems to be an attractive new tumor-associated antigen. The present study was designed to predict and identify HLA-A2-restricted cytotoxic T lymphocyte (CTL) epitopes in the protein of human Hpa. For this purpose, HLA-A2-restricted CTL epitopes were identified using the following four-step procedure: 1) a computer-based epitope prediction from the amino acid sequence of human Hpa, 2) a peptide-binding assay to determine the affinity of the predicted protein with the HLA-A2 molecule, 3) stimulation of the primary T-cell response against the predicted peptides in vitro, and 4) testing of the induced CTLs toward different kinds of carcinoma cells expressing Hpa antigens and/or HLA-A2. The results demonstrated that, of the tested peptides, effectors induced by peptides of human Hpa containing residues 525–533 (PAFSYSFFV, Hpa525), 277–285 (KMLKSFLKA, Hpa277), and 405–413 (WLSLLFKKL, Hpa405) could effectively lyse various tumor cell lines that were Hpa-positive and HLA-A2-matched. We also found that these peptide-specific CTLs could not lyse autologous lymphocytes with low Hpa activity. Further study revealed that Hpa525, Hpa277, and Hpa405 peptides increased the frequency of IFN-γ-producing T cells compared to a negative peptide. Our results suggest that Hpa525, Hpa277, and Hpa405 peptides are new HLA-A2-restricted CTL epitopes capable of inducing Hpa-specific CTLs in vitro. Because Hpa is expressed in most advanced malignant tumors, Hpa525, Hpa277, and Hpa405 peptide-based vaccines may be useful for the immunotherapy for patients with advanced tumors.     

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.     

Identification of peptide vaccine candidates sharing among HLA-A3+, -A11+, -A31+, and -A33+ cancer patients.

PURPOSE: Only a few studies have been reported on CTL epitope peptides restricted with alleles other than HLA-A2 and -A24. The HLA-A11, -A31, and -A33 alleles share similar binding motifs with HLA-A3 and -A68 alleles, and, thus, are classified as an HLA-A3 supertype. This study tried to identify CTL epitope peptides as vaccine candidates sharing by HLA-A3(+), -A11(+), -A31(+), and -A33(+) cancer patients. EXPERIMENTAL DESIGN: Seven peptides possessing the ability to induce HLA-A31-restricted and tumor-reactive CTLs were examined for their ability to induce HLA-A3-, -A11-, and -A33-restricted and tumor-reactive CTLs from peripheral blood mononuclear cells (PBMCs) of 18 epithelial cancer patients. The five reference peptides all have the ability to induce CTL activity restricted with one of the HLA-A3 supertypes, and, thus, were also examined as positive controls. RESULTS: Three peptides (2 from beta-tublin5- and 1 from CGI37-derived peptides) induced tumor-reactive CTLs in PBMCs of HLA-A3(+), -A11(+), and -A33(+) cancer patients with various frequencies (17-50%). One RLI- or KIAA0036-derived peptide induced tumor-reactive CTLs in PBMCs of HLA-A3(+) and -A11(+) or HLA-A11(+) and -A33(+) cancer patients also with various frequencies (22-67%), respectively, whereas the other peptide induced CTL activity in only HLA-A33(+) patients. Among the five reference peptides tested, one peptide, TRP2-197, induced CTL activity in both HLA-A11(+)- and -A33(+)-restricted manners. CONCLUSIONS: We identified new peptide vaccine candidates for HLA-A3, -A11, -A31, and -A33 positive cancer patients. This study may facilitate the development of both basic and clinical studies of peptide-based immunotherapy for cancer patients with other alleles of HLA-A2 and -A24.     

Cytotoxic T lymphocytes from HLA-A2.1 transgenic mice define a potential human epitope from simian virus 40 large T antigen

Recent reports have documented the presence of SV40 large T antigen (T ag) sequences in a number of human tumors and raised the question of whether cellular immunity to T ag is elicited in such individuals. We used HLA-A2.1 transgenic C57BL/6 mice to identify an epitope from T ag recognized by CD8+ CTLs when presented by this human MHC class I molecule. Immunization of HLA-A2.1 transgenic mice with syngeneic T ag-transformed cells resulted in the induction of HLA-A2.1-restricted, T ag-specific CTLs. The target epitope, residues 281-289 (KCDDVLLLL) of T ag, was identified using both cell lines expressing T ag variants and synthetic T ag peptides. Peptide 281-289 bound stably to HLA-A2.1 molecules, effectively sensitized target cells for CTL lysis, and was efficiently processed from endogenous T ag in cells of both mouse and human origin. CTLs were not cross-reactive on the human BK or JC virus T ags. Thus, SV40 T ag 281-289 represents a potential specific CTL recognition epitope for humans.     

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.     

Development of HLA-A2402/K(b) transgenic mice

HLA-transgenic mice have been developed to facilitate studies of HLA-restricted cytotoxic responses, e.g., for the identification of immunodominant HLA-restricted CTL epitopes and the optimization of peptide or DNA vaccine constructs for human use. We have developed HLA-A2402/K(b)-transgenic mice expressing chimeric human (alpha1 and alpha2 domains of HLA-A2402) and mouse (alpha3, transmembrane and cytoplasmic domains of H-2K(b)) class I molecules. Immunization of these HLA-A2402/K(b)-transgenic mice with various known HLA-A24-restricted immunodominant cancer CTL epitope peptides derived from gp100, MAGE-1, MAGE-3, Her2/neu, CEA and TERT induced HLA-A24-restricted, peptide-specific CTLs. Using these transgenic mice, we identified a novel HLA-A24-restricted CTL epitope, PSA(152-160), encoded by human prostate-specific antigen. Staining with HLA tetramers showed that the cytotoxic activity induced by immunizing with PSA(152-160) in HLA-A2402/K(b) transgenic mice was HLA-A2402-restricted and CD8-dependent. Therefore, PSA(152-160) might be a candidate peptide for vaccination of HLA-A24(+) patients with prostate cancer. Our results suggest that HLA-A2402/K(b) transgenic mice might be useful in the search for HLA-A24-restricted CTL epitopes functioning as human cancer antigens and for the development of peptide-based cancer immunotherapy.     

Overlapping peptides of melanocyte differentiation antigen melan-A/MART-1 recognized by autologous cytolytic T lymphocytes in association with HLA-B45.1 and HLA-A2.1

From the peripheral blood lymphocytes (PBLs) of melanoma patient SK29(AV) we have previously isolated 2 independent cytolytic T lymphocyte (CTL) clones (CTL7/147 and CTL13/211), which lysed autologous tumor cells in association with HLA-B45.1. As demonstrated here, both CTL clones were directed against melanocyte differentiation antigen Melan-A/MART-1, which also was recognized by HLA-A2.1-restricted CTLs from the same patient. By generating and transfecting 3′-deletion mutants of Melan-A/MART-1 cDNA, we localized its peptide-coding regions. The HLA-B45.1-presented peptides were derived from a hydrophobic region of the protein and largely overlapped the peptides recognized by CTLs from the same patient in association with HLA-A2.1. We determined the fine specificity of these CTL clones with synthetic peptides. CTL clone CTL7/147 recognized the 11-mer peptide AEEAAGIGILT (residues 24–34) at the lowest concentrations. The absence of threonine-34 abrogated the recognition by CTL7/147. The truncated peptide AEEAAGIGIL (residues 24–33) proved to be the optimal synthetic peptide for sensitization against lysis by CTL13/211. This indicated that C-terminal threonine-34 was not involved in binding to HLA-B45.1 but, rather, was part of the epitope for CTL7/147. HLA-B45.1-associated peptides of Melan-A/MART-1 were regularly processed and presented by other melanomas and other cell types. Three of 4 independent HLA-A2.1-restricted SK29-CTL clones recognized the 10-mer peptide EAAGIGILTV (residues 26–35) at 10- to 100-fold lower concentrations than the nonamer AAGIGILTV (residues 27–35), previously described as the common immunodominant peptide antigen for all known anti-Melan-A/MART-1 CTLs restricted by HLA-A2.1. Different melanoma peptide antigens currently are applied in therapeutic vaccination studies. Our findings emphasize that restricting to peptides of minimal length might exclude relevant T-cell epitopes. Int. J. Cancer 75:451–458, 1998. © 1998 Wiley-Liss, Inc.     

Identification of GP100-derived,melanoma-specific cytotoxic T-lymphocyte epitopes restricted by HLA-A3 supertype molecules by primary in vitro immunization with peptide-pulsed dendritic cells

The human melanocyte lineage-specific antigen gp100 contains several epitopes recognized by cytotoxic T lymphocytes (CTL). However, most of the epitopes reported to date are HLA-A2.1-restricted. Despite the high frequency of HLA-A2.1 in melanoma patients, effective population coverage requires the identification of epitopes restricted by other frequent HLA alleles. Herein, HLA-A3 binding, gp100-derived synthetic peptides were tested for their capacity to elicit anti-melanoma CTL in vitro using CD8⁺ T cells from healthy donors as responders and peptide-pulsed autologous dendritic cells as antigen-presenting cells. Of 7 peptides tested, 2 (gp100[9₈₇] and gp100[10₈₆] ) induced CTLs that killed melanoma cell lines expressing HLA-A3 and gp100. Additional MHC-binding studies to various HLA molecules belonging to the HLA-A3 superfamily (HLA-A*1101, -A*3101, -A*3301 and -A*6801) were performed to determine whether these CTL epitopes could further increase potential population coverage. Further experiments indicated that the peptide gp100\[9₈₇\], which bound to HLA-A11 with high affinity, was capable of inducing specific CTLs that killed melanoma cells expressing gp100 and HLA-A11 molecules. Our results indicate that the gp100\[9₈₇\] peptide corresponds to a CTL epitope which may be restricted by either the HLA-A3 or HLA-A11 allele, emphasizing its utility for the design and development of epitope-based therapies for melanoma. Int. J. Cancer, 78:518–524, 1998. © 1998 Wiley-Liss, Inc.     

Identification of a SART-1-derived peptide capable of inducing HLA-A24-restricted and tumor-specific cytotoxic T lymphocytes

We have described the SART-1 gene-encoding peptides recognized by HLA-A2601-restricted and tumor-specific cytotoxic T lymphocytes (CTLs). We now have investigated whether SART-1 encodes peptides capable of inducing the HLA-A24-restricted CTLs. Among the 18 different peptides with HLA-A24-binding motifs, the SART-1(690-698) peptide (EYRGFTQDF) was most strongly recognized by the HLA-A24-restricted and tumor-specific CTLs established from an esophageal cancer patient. After a third stimulation in vitro, this peptide induced HLA-A24-restricted CTLs recognizing the SART-1(259)+ tumor cells in PBMCs of all HLA-A24 homozygous and the majority of HLA-A24 heterozygous cancer patients and healthy donors tested. A similar activity, induction of CTLs from PBMCs, was observed in the Saccharomyces cerevisiae-derived nonapeptide (EYRGFTPMF) that shares 7 amino acids with the SART-1(690-698) peptide. The SART-1(690-698) peptide-induced CTL activity was significantly higher in PBMCs of HLA-A24 homozygotes than in HLA-A24 heterozygotes. The CTL precursor frequency in PBMCs after a third stimulation in vitro with the SART-1(690-698) peptide was high (>1/200) in both cancer patients and healthy donors. The SART-1(690-698) peptide could thus be useful for specific immunotherapy of HLA-A24+ cancer patients.     

树突状细胞负载MAGE-n表位肽的体外免疫学效应研究

目的：研究树突状细胞（dendritic cell,DC）负载MAGE-n表位肽QLVFGIEVV体外诱导特异性CTL的能力及其抗肿瘤效应。方法：MAGE-n表位肽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,连续贴壁法分离培养人外周血来源树突状细胞,用成熟的DC负载MAGE-n表位肽QLVFGIEVV反复刺激活化诱导抗原特异性CTL,用51Cr释放法检测CTL的杀伤活性,并用抗HLA-A2分子单抗进行杀伤抑制实验。结果：用DC负载MAGE-n表位肽QLVF-GIEVV可诱导特异性CTL反应,对MAGE-n阳性表达细胞有较强的杀伤作用。结论：DC负载抗原肽QLVF-GIEVV在体外可诱发较强的特异性免疫反应。     

Enhancing immunogenicity of a CTL epitope from carcinoembryonic antigen by selective amino acid replacements.

PURPOSE: Many epitopes from tumor antigens recognized by CTLs canbe poorly immunogenic. This low immunogenicity can be improved by carrying out amino acid replacements in their sequence. We have applied this strategy to enhance the immunogenicity of the HLA-A2-restricted CTL epitope CEA691 (IMIGVLVGV) from carcinoembryonic antigen (CEA), which is expressed by a wide variety of tumors. EXPERIMENTAL DESIGN: Substituted peptides from CEA691 were synthesized and tested in HLA-A2-binding assays, and in recognition by CEA691-specific CTL. Selected peptides were used to induce CTL responses in vivo in HLA-A2Kb transgenic mice and in vitro with human cells. RESULTS: Our experiments afforded several peptides with enhanced binding and/or recognition by CTL specific of CEA691. However, when HLA-A2Kb mice were immunized with these peptides only a few induced a CTL response that cross-reacted with CEA691. Additional replacement of their NH(2)-terminal amino acid by Y (tyrosine) afforded peptides YMIGMLVGV and YMIGVLLGV with enhanced in vivo and in vitro immunogenicity than CEA691. Indeed, they activated a greater number of precursor cells that recognized CEA691-pulsed cells and tumor cells expressing CEA. CONCLUSIONS: Our results widen the possibility of treating CEA-expressing tumors with enhanced efficacy.     

The renal cell carcinoma-associated antigen G250 encodes a human leukocyte antigen (HLA)-A2.1-restricted epitope recognized by cytotoxic T lymphocytes.

Evidence has accumulated that the immune system can play a significant role in the defense against tumors in humans. Especially melanoma and renal cell carcinoma (RCC) are considered immunogenic tumors. In contrast to melanoma, hardly any RCC-associated antigens have been identified as targets for RCC-reactive T cells. Here, we report the identification of a human leukocyte antigen (HLA)-A2.1-restricted T-cell epitope within the G250 antigen. This antigen is expressed in 85% of RCCs but not by neighboring normal kidney tissue and has recently been molecularly defined and shown to be identical to MN/CA IX. Computer-aided motif prediction revealed the presence of 60 potential HLA-A2.1-binding peptides within the G250 antigen. Subsequent binding analysis showed that 13 of these peptides bound to HLA-A2.1 with high-to-intermediate affinity. Analysis of their immunogenicity in HLA-A2.1Kb transgenic mice indicated that 4 of the 13 peptides gave rise to cytotoxic T lymphocytes (CTLs) capable of lysing peptide-loaded target cells. However, only the G250 peptide 254-262 induced CTLs that recognized target cells that endogenously expressed the G250 antigen. Similarly, we were also able to raise human CTLs against the G250 peptide 254-262, which lysed target cells that endogenously expressed the G250 antigen. These findings and the high prevalence of this antigen in RCC patients makes G250 a potential target for anti-RCC immunotherapy.     

Identification of an HLA-A*0201-restricted cytotoxic T lymphocyte epitope from the lung carcinoma antigen, Lengsin

Lengsin is an eye lens protein with a glutamine synthetase domain. We previously identified this protein as a lung carcinoma antigen through cDNA microarray analysis. Lengsin protein is overexpressed irrespective of the histological type of lung carcinoma, but not in normal tissues other than the lens. Therefore, to significantly extend the use of Lengsin-based T-cell immunotherapies for the treatment of patients with lung carcinoma, we searched for HLA-A*0201-restricted epitopes from this protein by screening predicted Lengsin-derived candidate peptides for the induction of tumor-reactive CTLs. Four Lengsin-derived peptides were selected by computerized algorithm based on a permissive HLA-A*0201 binding motif, and were used to immunize HLA-A*0201 transgenic (HHD) mice. Two of the immunizing peptides, Lengsin(206-215)(FIYDFCIFGV) and Lengsin(270-279)(FLPEFGISSA), induced peptide-specific cytotoxic T lymphocytes (CTLs) in HHD mice, and thus were used to stimulate human peripheral blood lymphocytes in?vitro. Lengsin(206-215) and Lengsin (270-279) also induced human peptide-specific CTLs, and we were able to generate Lengsin(206-215)- and Lengsin(270-279)-specific CTL clones. The Lengsin(270-279)-specific CTL clone specifically recognized peptide-pulsed T2 cells, COS-7 cells expressing HLA-A*0201 and Lengsin, and HLA-A*0201+/Lengsin+ lung carcinoma cells in an HLA-A*0201-restricted manner. On the other hand, the Lengsin(206-215)-specific CTL clone failed to recognize HLA-A*0201+/Lengsin+ target cells in the absence of cognate peptide. These results suggest that Lengsin(270-279) is naturally processed and presented by HLA-A*0201 molecules on the surface of lung carcinoma cells and may be a new target for antigen-specific T-cell immunotherapy against lung cancer.