Species-restricted recognition of transfected HLA-A2 and HLA-B7 by human CTL clones

Human cytolytic T lymphocytes (CTL) clones and HLA-A2- and HLA-B7-transfected human, monkey, and mouse cell lines were used to investigate the basis for species-restricted antigen recognition. Most allospecific CTL clones obtained after stimulation with the human JY cell line (source of HLA-A2 and HLA-B7 genomic clones) recognized HLA antigens expressed in human and monkey cell lines but did not recognize HLA expressed in murine cells. By initially stimulating the responder cells with HLA-transfected mouse cells, two CTL clones were obtained that recognized HLA expressed in murine cells. Functional inhibition of these CTL clones with anti-class I monoclonal antibodies (MAb) indicated that clones reactive with HLA+ murine cells were of higher avidity than clones that did not recognize HLA+ murine target cells. MAb inhibition of accessory molecule interactions demonstrated that the LFA-1 and T8 surface molecules were involved in CTL-target cell interactions in all three species. In contrast, the LFA-2/CD2 molecule, previously shown to participate in a distinct activation pathway, was involved in the cytolysis of transfected human and monkey target cells, but not in the lysis of HLA+ murine cells. Thus transfection of HLA genes into different recipient species cell lines provides us with the ability to additionally delineate the functional requirements for allospecific CTL recognition and lysis.     

Cytotoxic T lymphocyte recognition of HLA-A/B antigens introduced into EL4 cells by cell-liposome fusion

HLA-A2 and -B7 antigens were introduced into EL4 (H-2b) cells by cell-liposome fusion and were used as targets or stimulators for cytotoxic T lymphocytes (CTL) generated in C57B1/6 (H-2b) mice. It was found that such EL4-HLA cells were not recognized by CTL that had been raised against either a human cell line bearing these HLA antigens or the purified HLA-A2 and -B7 antigens reconstituted into liposomes. In addition, EL4-HLA cells were not capable of inducing CTL that could recognize a human cell line bearing HLA-A2 and -B7 antigens. Instead, EL4-HLA cells induced CTL that specifically lysed EL4-HLA cells and not human cells expressing HLA-A2 and -B7. CTL recognition required the presence of HLA antigens on the EL4 cell surface and was inhibited by antibodies against either H-2b or HLA-A/B. Monoclonal antibody binding studies showed that the expected polymorphic determinants of the HLA-A2 and -B7 antigens were still present on EL4-HLA cells. However, the specificity of CTL or their precursors that are capable of recognizing HLA-A2 or -B7 was altered after these antigens became associated with the EL4 surface. Possible explanations for these results are discussed.     

Human allospecific cytolytic T lymphocyte lysis of a murine cell transfected with HLA-A2

A variety of molecules are involved in the interaction of human allospecific cytolytic T lymphocytes (CTL) with target cells. Monoclonal antibodies specific for these molecules inhibit CTL-target conjugate formation and/or lysis. To further study recognition and lysis of targets by human CTL, we used a murine mastocytoma cell line transfected with the histocompatibility leukocyte antigen (HLA)-A2 gene (P815-A2+) as a target for human HLA-A2-specific CTL. We find that only a subset of human HLA-A2-specific CTL can lyse murine P815-A2+ cells, suggesting that the murine cells may lack one or more accessory molecules needed for CTL recognition and lysis.     

HLA-A0201 positive pancreatic cell lines: new findings and discrepancies

Pancreatic cancer is being pursued as an immunotherapy target using antigen-specific vaccine approaches activating CD8(+) CTL and CD4(+) T-helper cells. CD8(+) CTL exert their anti-tumor effects in an HLA-restricted manner and only tumor cells carrying a matched HLA class I sub-type are targets for antigen-specific CTL. In the process of characterizing CD8(+) T cell responses against pancreatic cancer, we screened a number of human pancreatic tumor cell lines for HLA-A0201 positive (HLA-A2(+)) cell lines to be used in the evaluation of CTL function. This analysis revealed some new findings and discrepancies in the literature on the HLA sub-type of some commonly used pancreatic cell lines. We found that Capan-1 cells, originally reported to be HLA-A0201(+), actually only express HLA-A010101 and HLA-A300101 and were targets for HLA-A0201-restricted CTL only after transduction with an HLA-A0201-expressing lentivirus. Panc-1 cells were found to be HLA-A0201 positive, in agreement with published reports, while CF-Pac-1 cells were found to express both HLA-A020101 and HLA-A030101. We also found a normal human pancreatic ductal epithelial cell line, HPDE, to be HLA-A0201 positive. Our findings were verified with two different sequence-based typing methods, antibody staining followed by flow cytometry analysis, and functional analysis using an HLA-A0201-restricted peptide-specific T cell response.     

T3 monoclonal antibody activation of nonspecific cytolysis: a mechanism of CTL inhibition

The T3 antigen is expressed on all cytotoxic T lymphocytes (CTL). Monoclonal antibodies (MAb) to the T3 antigen previously have been shown to inhibit CTL-mediated killing of cells expressing the relevant target antigens. The mechanism of T3 MAb inhibition, however, remains undefined. In this report, we describe a novel effect of the T3 MAb: the stimulation of allospecific CTL clones to kill target cells that do not express the relevant HLA antigens. The stimulation of nonspecific killing was seen only with MAb to the T3 antigen; MAb to other function-associated antigens (e.g., LFA-1, LFA-2, LFA-3, T4, T8, HLA-A,B,C, and DR) had no effect. T3 MAb stimulated nonspecific killing by CTL clones expressing both the T4+ and T8+ phenotype and by CTL clones specific for both class I and class II HLA alloantigens. Target cell susceptibility to T3 MAb stimulated killing was variable. CTL clones lysed some target cell lines very efficiently (e.g., K562, Daudi, and M124.1) but lysed other cell lines much less efficiently (e.g., 23.1, Mann, and L cells). In CTL-mediated cytotoxicity assays with target cells expressing the relevant HLA antigens, T3 MAb demonstrated the expected inhibition of cytolysis. Thus, the ability of T3 MAb to stimulate and inhibit CTL-mediated cytolysis suggests that both effects may be the result of a common mechanism of activation.     

HLA-A2-restricted peripheral blood cytolytic T lymphocyte response to HPV type 16 proteins E6 and E7 from patients with neoplastic cervical lesions

 The DNA from human papillomavirus (HPV) can be detected in 90% of cervical carcinomas. To address whether patients infected with HPV can mount efficient T cell responses to this pathogen we examined the cytotoxic T lymphocyte (CTL) response of peripheral blood mononuclear cells (PBMC) from patients with abnormal genital epithelial cells. PBMC from 11 HLA-A2⁺ patients were stimulated with CaSki, a cervical carcinoma cell line that is HPV 16⁺ and HLA-A2⁺. The CTL were screened for reactivity to the cervical carcinoma cell line C33A (HPV^–, HLA-A2⁺) transfected with the HPV 16 E6 or E7 genes or the plasmid without insert. The CTL of 1 patient showed particularly strong CaSki and HPV E6 or E7 protein-specific cytotoxicity in a HLA-A2-restricted fashion. In contrast, these CTL lysed neither a vector-only transfectant, the natural killer cell (NK) target, K562 nor the lymphokine-activated killer cell (LAK) target, Daudi. HLA-A2 restriction was demonstrated by the lack of recognition of a HLA-A2^– CaSki cell line developed in our laboratory. The CTL line was cloned and 99 clones were harvested and screened; 51 clones lysed CaSki, of which 17 did not lyse the A2^– CaSki. Of these HLA-A2^– restricted clones, 8 did not lyse C33A transfectants, 6 lysed all C33A transfectants, 3 lysed C33A-E7 only and none lysed C33A-E6 only. These data imply that, within the bulk CTL line, HLA-A2-restricted recognition of antigens was restricted to CaSki antigens, antigens common to cervical carcinoma (CaSki plus C33A), or HPV-16-E7-derived antigen on the clonal level. The E7-restricted clones were negative for recognition of known HLA-A2-binding peptides from E7. Received: 16 November 1995 / Accepted: 15 January 1996     

Mutant HLA-A2 antigens as restricting elements for virus-specific cytotoxic T cells

Mutants of the EB virus-transformed cell line T5-1 (HLA-Al, 2; B8, 27), bearing well-characterized alterations in HLA-A2 antigen expression and unable to bind the HLA-A2-specific monoclonal antibody 13137.2, have been tested for their susceptibility to EB virus-specific cytolysis using effector T-cell preparations functionally restricted through relevant HLA antigens. Initial experiments first confirmed that the parent line T5-1 was susceptible to cytolysis by both common A2-restricted and 1327-restricted effector cells. While those T5-1 mutants with little or no surface A2 expression were not lysed by A2-restricted effectors, those targets with quantitatively normal expression of mutant A2 molecules were as susceptible to A2-restricted lysis as the parent line itself. In contrast, all the T5-1 mutant lines were susceptible to B27-restricted cytolysis. The results demonstrate that experimentally induced mutations of HLA-A2 antigen structure, affecting a serologically defined site on the molecule, can occur without altering that same molecule's expression of the T cell-restricting determinant(s). Such experimentally induced mutations are quite different from the naturally occurring variant A2 antigens which are present within the serologically defined A2 antigen group and which show changes at the T cell-restricting site.     

The ability of cytotoxic T cells to recognize HLA-A2.1 or HLA-B7 antigens expressed on murine cells correlates with their epitope specificity

Two groups of human and murine cytotoxic T lymphocyte (CTL) clones specific for human leukocyte antigen (HLA)-A2 or -B7 can be distinguished based on their ability to kill murine transfectants expressing these molecules. The clones which do not recognize murine transfectants exhibited greatly reduced conjugate formation with these cells, indicating that the inability to lyse these cells occurs in recognition and binding. No systematic differences in inhibitory titer between the two types of CTL clones were seen with anti-CD8 (Lyt-2), anti-LFA-1, or monoclonal antibodies against HLA class I molecules. However, blocking with anti-HLA class I monoclonal antibodies suggested that different CTL clones recognized spatially separate epitopes on HLA-A2 and -B7. In addition, a correlation between the inability to recognize murine transfectants and fine specificity was seen. Eight of nine clones which did not lyse murine transfectants also failed to recognize human cells expressing HLA-A2.2 or -A2.3. In contrast only 5 of 12 clones which lysed transfectants failed to recognize the variant molecules. Analogous data were obtained with human CTL clones raised against HLA-A2.1. These findings suggest that CTL clones that do not lyse murine cells expressing appropriate antigens recognize epitopes that have been altered or lost as a consequence of expression on the murine cell surface. It is suggested that the loss of HLA-associated epitopes on the murine cell surface may be due to differences between mouse and human cells in the processing or presentation of class I-associated peptides.     

Identification of antigenic epitopes recognized by Mac-2 binding protein-specific cytotoxic T lymphocytes for use in cancer immunotherapy

We have previously reported that 90K/Mac-2 binding protein (M2BP) was highly expressed in lung cancer and that M2BP-specific immunity was observed in many of cancer patients. In this study, we analyzed the ability of 11 M2BP-derived oligopeptides with an HLA-A*0201-binding motif to induce M2BP-specific cytotoxic T lymphocytes (CTL) from peripheral blood lymphocytes of normal donors by in vitro stimulation. One of the CTLs that were induced using M2BP216-224 (RIDITLSSV) produced interferon-gamma in response to HLA-A2-positive T2 cells pulsed with the same peptide and lysed MDA-MB-231 cells expressing both M2BP and HLA-A2. The cytolytic activities were blocked by antibodies against HLA class I or CD8. These findings suggest that M2BP216-224 is naturally processed from the native M2BP in cancer cells and recognized by M2BP-specific CTLs in an HLA-A2 restriction. We first identified M2BP-derived CTL epitopes that may be useful as a target antigenic epitope in clinical immunotherapy of cancer.     

Differential recognition of the serologically defined HLA-A2 antigen by allogeneic cytotoxic T cells

A comprehensive analysis of human alloimmune cytotoxic T lymphocytes (CTLs) specific for the HLA-A2 antigen identified 11% of HLA-A2 positive cells as outliers. In total, 11 unrelated serologically indistinguishable, but distinguishable by cell-mediated lympholysis (CML) HLA-A2 positive outlier cells were identified. The outlier cells could be subdivided in two subgroups according to reactivity patterns obtained with CTLs directed against the HLA-A2 antigen of outlier cells and their inhibitory capacity in specific competitive inhibition experiments. Thus, the serologically defined HLA-A2 specificity can be divided into at least three subtypes using CTLs specific for the HLA-A2 antigen. Moreover, CTLs specific for an HLA-A2 subtype could be induced when responder cells expressed a different HLA-A2 subtype antigen. On the basis of several family studies, we conclude that the subtype HLA-A2 antigens are inherited in a codominant way.     

Delineation of immunologically and biochemically distinct HLA-A2 antigens

Cytotoxic T cell (CTL) recognition of influenza virus in conjunction with HLA-A2 was examined in a population study. Virus-infected target cells from three unrelated A2-positive donors were not lysed by virus-immune CTL from any donor matched only for A2. The A2 antigens of these three donors were indistinguishable from the A2 antigens of other A2-positive donors as assessed by extensive serologic analyses; however, isoelectric focusing (IEF) of A2 molecules from these three donors demonstrated that their A2 heavy polypeptide chains are structurally distinct from those of "normal" A2-positive donors. To date 11% of all A2-positive donors tested exhibited a "variant" A2-associated CTL restriction antigen, and IEF of A2 heavy chains from all "variant" A2-positive cells revealed structural differences in each of these polypeptides. These results suggest there may be considerably greater polymorphism of HLA-A gene products than has been revealed by current serologic techniques.     

Lymphocytes cytotoxic to uveal and skin melanoma cells from peripheral blood of ocular melanoma patients

Summary To study antitumor immunity in patients with choroidal melanoma, T cells were generated from the peripheral blood of choroidal melanoma patients by mixed lymphocyte/tumor cell culture (MLTC). Because autologous tumors are generally unavailable, an allogeneic choroidal melanoma cell line, OCM-1, was used as the specific stimulus. Lymphocyte cultures from 27 patients were characterized by cell-surface phenotypes, patterns of reactivity towards cells of the melanocytic origin and T-cell-receptor gene usage. Antimelanoma reactivity was found in cell-sorter-purified CD4⁺ and CD8⁺ T cell subsets. To analyze this reactivity, sorter-purified CD4⁺ and CD8⁺ cells from a MLTC were cloned by limiting dilution in the presence of exogenous interleukin-2 and interleukin-4 as well as irradiated OCM-1. Under these conditions, CD4⁺ T cells did not proliferate, perhaps because of the absence of antigen-presenting cells. However, CD8⁺ grew vigorously and 29 cytolytic CD8⁺ T cell clones were isolated. On the basis of their pattern of lysis of OCM-1, a skin melanoma cell line M-7 and its autologous lymphoblastoid cell line LCL-7, the clones were categorized into three groups. Group 1, representing 52% of the clones, lysed all three target cells, and are alloreactive. However, since OCM-1 and M-7 did not share class I antigens, these clones recognized cross-reactive epitope(s) of the histocompatibility locus antigen (HLA) molecule. Group 2, constituting 28% of the clones, lysed both the ocular and skin melanoma cell lines but not LCL-7, and were apparently melanoma-specific. Unlike classical HLA-restricted cytolytic T lymphocytes, these T cells might mediate the lysis of melanoma cells via other ligands or a more degenerate type of HLA restriction. For the latter, the HLA-A2 and -A28 alleles would have to act interchangeably as the restriction element for shared melanoma-associated antigen(s). Group 3, representing only 10% of the T cell clones, was cytotoxic only to OCM-1, but not to M-7 or LCL-7. These clones may recognize antigens unique to ocular melanoma cells. Our data suggest that choroidal melanoma patients can recognize melanoma-associated antigens common to both ocular and cutaneous melanoma cells, and presumbly their autologous tumor. Thus, choroidal melanoma, like its skin counterpart, may be responsive to immunotherapeutic regimens such as active specific or adoptive cellular immunotherapy.This work is supported by National Institutes of Health research grants CA 36 233 and EY 9031, the Lucy Adams Memorial Fund and support from the Concern Foundation     

H2-restricted recognition of cloned HLA class I gene products expressed in mouse cells

Long-term syngeneic mouse cytolytic T lymphocyte (CTL) clones were obtained from DBA/2 (H2d) mice immunized with P815 (H2d) cells transfected with cloned human class I histocompatibility genes, HLA-CW3 or HLA-A24. Three distinct patterns of specificity were defined on P815 HLA transfectant target cells. One clone lysed HLA-CW3 but not -A24 transfectants, and a second lysed HLA-A24 but not -CW3 transfectant target cells. The third clone lysed P815 targets transfected with either HLA gene. None of the CTL clones lysed L cells (H2k) transfected with the same HLA genes or human targets that expressed these HLA specificities. Several lines of evidence indicated that recognition of HLA transfectants by these CTL clones was H2 restricted. First, lysis of P815 HLA transfectants could be inhibited by anti-H2Kd monoclonal antibody. In addition, the anti-P815-HLA CTL clones could lyse a (human X mouse) hybrid target that expressed both HLA class I and H2Kd antigens, but not a clonal derivative that no longer expressed H2Kd. The most direct evidence for H2-restricted recognition of P815-HLA transfectants by the syngeneic CTL clones was obtained by double transfection of mouse L cells (H2k) with both HLA and H2 class I genes. L cells transfected with HLA and H2Kd genes were susceptible to lysis by the same CTL clones that lysed the corresponding P815-HLA transfectant targets. Thus under certain conditions, CTL recognition of xenogeneic class I histocompatibility gene products can be restricted by other class I gene products.     

The role of HLA class I antigens in recognition of melanoma cells by tumor-specific cytotoxic T lymphocytes. Evidence for shared tumor antigens

CTL lines were established in vitro by stimulating patient lymphocytes with autologous melanoma cells in the presence of IL-2. Resulting CTL lines lysed autologous melanoma and failed to lyse several allogeneic melanomas or K562. The mechanism of target cell recognition by autologous tumor-specific CTL was evaluated in this system, using several CTL lines: DT6, DT105, DT141, DT166, DT169, and DT179. Autologous melanoma lysis was inhibited by W6/32, mAb directed against HLA class I Ag, but not by L243, mAb directed against HLA class II Ag. CTL from DT6, DT141, DT166, DT169, and DT179 lysed fresh and cultured allogeneic melanomas, which shared the HLA-A2 Ag, but failed to lyse allogeneic melanomas, which shared B-region or C-region Ag, or shared no HLA class I Ag. CTL from DM141 lysed DM93, which shared A2 and Bw6, but failed to lyse DM105, which shared only Bw6. DM105 CTL failed to lyse allogeneic melanomas that shared HLA-A1, or that shared B or C region Ag, but they did lyse allogeneic melanoma DM49, which expressed an A region Ag that either was A10 or was serologically cross-reactive with A10. A T cell leukemia line, three EBV transformed B cell lines, and a pancreatic cancer line, all of which expressed HLA-A2, were not lysed by DM6 or DM179 CTL. Furthermore, HLA-matched nonmelanomas failed to inhibit autologous tumor lysis in cold target inhibition assays, whereas an HLA-A2+ allogeneic melanoma, DM93, inhibited autologous tumor lysis as effectively as the autologous tumor itself. HLA-A2, and possibly other HLA-A-region Ag, appear to function in HLA-restricted recognition of shared melanoma associated Ag by CTL.     

Induction of Tc2 cells with specificity for prostate-specific antigen from patients with hormone-refractory prostate cancer

Prostate-specific antigen (PSA) is a potentially useful antigen for targeted T-cell immunotherapy of prostate cancer (CaP). Our laboratory has identified a synthetic nonamer peptide (PSA 146-154) homologue of PSA, which binds to the prevalent human leukocyte antigen, HLA-A2, and elicits specific cytotoxic T-lymphocyte (CTL) responses from normal individuals of the HLA-A2 phenotype. In the present study, we report on the induction of CTL from peripheral blood mononuclear cells (PBMC) of patients with hormone-refractory CaP, which exhibit the same specificity. T-cell lines were established from two patients by stimulation of PBMC with PSA 146-154 peptide in vitro. The T-cell lines exhibited specific cytolytic activity against T2 cells pulsed with PSA 146-154 peptide, but not a control HLA-A2 binding peptide (HIV-RT 476-484) via chromium release assay (CRA). The T-cell lines also showed PSA 146-154 peptide-specific IL-4 responses, but no detectable interferon-gamma (IFN-gamma) responses via enzyme-linked immuno-spot assays. Magnetic immuno-selection studies of one of the T-cell lines demonstrated that both cytolytic and interleukin-4 (IL-4) responses were mediated by CD8(+), but not by CD4(+) T cells. This Tc2 line was further characterized for the ability to recognize endogenously processed PSA epitopes. The line specifically secreted IL-4 in response to HLA-A2(+) target cells transfected to express PSA and specifically lysed the PSA(+) target cells, but not control transfected cells. The results indicate that the PSA 146-154 peptide emulates a naturally processed and presented peptide epitope of PSA that is within the T-cell repertoire of HLA-A2(+)patients with CaP.     

Induction of cytotoxic T lymphocytes specific to malignant glioma using T2 cells pulsed with HLA-A2-restricted interleukin-13 receptor alpha 2 peptide in vitro

Interleukin-13 receptor α2 （IL-13Rα2） is a glioma-restricted cell-surface epitope not otherwise detected within the central nervous system. The present study is a report of a novel approach of targeting malignant glioma with IL-1 3Rα2-specific cytotoxic T lymphocyte （CTL） induced from the peripheral blood mononuclear cells of healthy donors by multiple stimulations with human leukocyte antigen （HLA）-A2-restricted IL-1 3Rα2345-353 peptide-pulsed T2 cells. The induced CTL showed specific lysis against T2 cells pulsed with the peptide and HLA-A2^＋ glioma cells expressing IL- 1 3Rα2345-353, while HLA-A2 glioma cell lines that express IL-13Rα2345-353 could not be recognized by CTL. The peptide-specific activity was inhibited by anti-HLA class I monoclonal antibody. These results suggest that the induced CTL specific for IL-1 3Rα2345-353 peptide could be a potential target of specific immunotherapy for HLA-A2 patients with malignant glioma.     

Cloned human cytotoxic T lymphocyte (CTL) lines reactive with autologous melanoma cells. I. In vitro generation, isolation, and analysis to phenotype and specificity

Activation of peripheral blood lymphocytes (PBL) from a melanoma patient either in secondary MLC in which EBV-transformed B cells from the cell line JY were used as stimulator cells, or by co-cultivation with the autologous melanoma cells in a mixed leukocyte tumor cell culture (MLTC) resulted in the generation of cytotoxic activity against the autologous melanoma (O-mel) cells. From these activated bulk cultures four cloned cytotoxic T lymphocyte (CTL) lines were isolated. The CTL clone O-1 (T3+, T4+, T8-, OKM-1-, HNK-, and HLA-DR+), and O-36 (T3+, T4-, T8+, OKM-, HNK-, and HLA-DR+) were obtained from MLC, whereas the CTLC clones O-C7 (T3+, T4+, T8-, OKM-1-, HNK-, and HLA-DR+) and O-D5 (T3+, T4-, T8+, OKM-1-, HNK, and HLA-DR+) were isolated from autologous MLTC. All four CTL clones were strongly cytotoxic for O-mel cells but failed to lyse autologous fibroblasts and autologous T lymphoblasts. Moreover, the CTL clones lacked NK activity as measured against K562 and Daudi cells. Panel studies indicated that the CTL clones also killed approximately 50% of the allogeneic melanoma cells preferentially, whereas the corresponding T lymphoblasts were not lysed. Monoclonal antibodies against class I (W6/32) and class II (279) MHC antigens failed to block the reactivity of the CTL clones against O-mel and allogeneic melanoma cells, indicating that a proportion of human melanoma cells share determinants that are different from HLA antigens and that are recognized by CTL clones. In contrast to the CTL clones isolated from MLTC, the clones obtained from MLC also lysed JY cells, which initially were used as stimulator cells. The reactivity of O-36 against JY could be inhibited with W6/32, demonstrating that this reactivity was directed against class I MHC antigens. These results suggest that the lysis of O-mel and JY cells by O-36 has to be attributed to two independent specificities of this CTL clone. The specificity of the other cross-reactive CTL clone (O-1) could not be determined. The notion that individual CTL clones can have two specificities was supported by the following observations. The cytotoxic reactivity of both O-1 (T4+) and O-36 (T8+) against JY was blocked by monoclonal antibodies directed against T3 and human LFA-1, and against T3, T8, and human LFA-1, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)     

HLA-A2-restricted protection against lethal lymphocytic choriomeningitis

The consequences of human lymphocytic choriomeningitis virus (LCMV) infection can be severe, including aseptic meningitis in immunocompetent individuals, hydrocephalus or chorioretinitis in fetal infection, or a highly lethal outcome in immunosuppressed individuals. In murine models of LCMV infection, CD8(+) T cells play a primary role in providing protective immunity, and there is evidence that cellular immunity may also be important in related arenavirus infections in humans. For this reason, we sought to identify HLA-A2 supertype-restricted epitopes from the LCMV proteome and evaluate them as vaccine determinants in HLA transgenic mice. We identified four HLA-A*0201-restricted peptides-nucleoprotein NP(69-77), glycoprotein precursor GPC(10-18), GPC(447-455), and zinc-binding protein Z(49-58)-that displayed high-affinity binding (< or =275 nM) to HLA-A*0201, induced CD8(+) T-cell responses of high functional avidity in HLA-A*0201 transgenic mice, and were naturally processed from native LCMV antigens in HLA-restricted human antigen presenting cells. One of the epitopes (GPC(447-455)), after peptide immunization of HLA-A*0201 mice, induced CD8(+) T cells capable of killing peptide-pulsed HLA-A*0201-restricted target cells in vivo and protected mice against lethal intracranial challenge with LCMV.     

Shared human melanoma antigens. Recognition by tumor-infiltrating lymphocytes in HLA-A2.1-transfected melanomas.

Three predominantly CD8+ CTL lines, TIL 501, TIL 620, and TIL 660, were generated from three HLA-A2+ melanoma patients by culturing tumor-infiltrating lymphocytes in 1000 U/ml IL-2. These tumor-infiltrating lymphocytes lysed 12 of 18 HLA-A2+ autologous and allogeneic melanomas, but none of 20 HLA-A2-negative melanomas. They also did not lyse the MHC class I negative lymphoma-leukemia cell lines, Daudi, K562, or HLA-A2+ non-melanoma cell lines including PHA or Con A-induced lymphoblast, fibroblast, EBV-transformed B cell, Burkitt's B cell lymphoma, and colon cancer cell lines. Autologous and allogeneic melanoma lysis was inhibited by anti-CD3, by anti-MHC class I, and by anti-HLA-A2 mAb, indicating recognition of shared tumor Ag among melanoma cell lines in a TCR-dependent, HLA-A2-restricted manner. Six HLA-A2-negative melanoma cell lines obtained from five HLA-A2-negative patients were co-transfected with the HLA-A2.1 gene and pSV2neo. All 17 cloned transfectants expressing cell surface HLA-A2 molecules, but none of 12 transfectants lacking HLA-A2 expression, were lysed by these three HLA-A2-restricted, melanoma-specific CTL. Lysis of the HLA-A2+ transfectants was inhibited by anti-CD3, by anti-MHC class I, and by anti-HLA-A2 mAb, indicating recognition of shared tumor Ag on transfectants in a TCR-dependent, HLA-A2-restricted manner. These results identify the HLA-A2.1 molecule as an Ag-presenting molecule for melanoma Ag. They also suggest that common melanoma Ag are expressed among melanoma patients regardless of HLA type. These findings have implications for the development of melanoma vaccines that would induce antitumor T cell responses.     

Generation of human-melanoma-specific T lymphocyte clones defining novel cytolytic targets with panels of newly established melanoma cell lines

Melanoma is a cancer where the immune system is believed to play an important role in the control of malignant cell growth. To study the variability of the immune response in melanoma patients, we derived melanoma cell lines from several HLA-A2⁺ and HLA-A2^– patients. The melanoma cell lines studied were designated FM3, FM6, FM9, FM28, FM37, FM45, FM55_P, FM55_M1 and FM55_M2 and were established from eight metastatic tumors as well as from one primary tumor from a total of seven different patients. On the basis of the ability of tumor cells to induce specific cytotoxic T lymphocytes (CTL) from peripheral blood lymphocytes (PBL) in mixed lymphocyte/tumor culture with HLA-A2⁺ melanoma cells, the FM3 cell line was characterized as highly immunogenic. To investigate the expression of different melanoma-associated antigens recognized by CTL on different melanoma cell lines, we selected the cell line FM3 for restimulation and further T cell cloning experiments. The lytic activity of CTL clones with good proliferative activity was examined using a panel of HLA-A2⁺ and HLA-A2^– melanoma cell lines. None of the tested HLA-A2^– melanoma cell lines were susceptible to lysis by the CTL clones, whereas allogeneic HLA-A2⁺ melanoma cell lines were lysed only by a few CTL clones. On the basis of their reactivity with different melanoma cell lines, it was possible to divide the present CTL clones into at least four groups suggesting the recognition of at least four different antigens. Three of these target structures probably are different from already-described HLA-A2-restricted melanoma-associated antigens, because their expression in the different melanoma cell lines do not correlate with the recognition of melanoma cells by these CTL. The results first indicate that poorly immunogenic melanoma cells may express melanoma-associated antigens, and also suggest that, by using CTL clones obtained against different HLA-class-I-matched melanoma cells, it is possible to define such antigens.