New antigens presented on tumor cells can cause immune rejection without influencing the frequency of tumor-specific cytolytic T cells

The specific immune response against syngeneic tumors by T cells is dependent on the existence of tumor-associated transplantation antigens (TATA). In the case of the chemically induced DBA/2-derived lymphoma Eb and its highly metastatic variant ESb the immunogenicity of these antigens is not sufficient to prevent tumor growth. Therefore we tested in two systems the influence of additional antigens as possible helper determinants for the generation of tumor-specific immune responses. In the Eb tumor system additional antigens were induced by mutagenization. The frequency of cytotoxic T lymphocytes (CTL) in response to mutagenized Eb cells was higher than that in response to untreated Eb cells. Fine specificity analysis revealed there there was no increase in the CTL response against the original TATA, but an activation of additional CTL clones responding to mutagen-induced antigens. In the ESb tumor system we tested the effect of additional recognition of minor histocompatibility antigens on the frequency of TATA-specific CTL. Transplantation of ESb tumor cells into B10.D2 mice, which are H-2-identical but differ in minor antigens, results in strong tumor rejection responses. In a limiting dilution mixed-leukocyte-tumor microculture system it was found that the minor antigens are recognized at the clonal level as independent antigens. The overall frequency of anti-tumor CTL in ESb-immunized B10.D2 mice was about 1/3000. Among these, the frequency of TATA-specific CTL was 1/16,709 and thus not significantly different from that of syngeneic DBA/2 mice. Thus neither minor antigens nor mutagen-induced antigens acted in the Eb/ESb tumor system as helper determinants and did not increase the frequency of tumor-specific CTLs.     

Tumor metastases and cell-mediated immunity in a model system in DBA/2 mice. VIII. Expression and shedding of Fcγ receptors on metastatic tumor cell variants

The expression of receptors for the Fc portion of IgG immunoglobin molecules was studied on tumor cell lines with high and low metastatic capacity. Two tumor cell lines from DBA/2 mice that had high metastatic activity, ESb and MDAY-D2, contained a high percentage of Fc receptor positive cells, as detected in a rosette assay with IgG antibody-coated erythrocytes (EA). In contrast, the low metastatic parental line Eb, from which ESb was derived, contained only a low percentage of EA-rosette-forming cells. ESb ascites tumor cells adapted to tissue culture in the presence of 2-mercaptoethanol (2ME) had a high expression of Fc receptors, whereas a cell line adapted to tissue culture in the absence of 2ME had a low expression of Fc receptors. “Soluble” Fc receptors were detectable by their ability to bind to EA and to cause blocking of rosette formation. They were found to be present in fluids from tumor-bearing animals, such as serum and cell-free ascites. Even animals with an ascites tumor of the low-metastatic line Eb contained “soluble” Fc receptors. The results are discussed with regard to their possible significance for tumor metastasis.     

Characterization of cellular and extracellular plasma membrane vesicles from a low metastatic lymphoma (Eb) and its high metastatic variant (ESb): inhibitory capacity in cell-cell interaction systems

Spontaneously shed extracellular plasma membrane vesicles (ECM) of a highly metastatic murine tumor line (ESb) were compared with plasma membrane vesicles (PM) of the same cells prepared by the nitrogen cavitation method and with ECM and PM preparations of the related low metastatic tumor line Eb. From a previous biochemical analysis it was concluded that the exfoliation of ECM vesicles, which is very pronounced in metastatic ESb cells, is not a random process. This conclusion is further corroborated by the present functional analysis. Compared to ESb PM, ESb-derived ECM were selectively enriched for Fc receptors and depleted in glycoproteins with affinity for hepatocytes. Tumor-derived ECM carried the same tumor antigen as the corresponding tumor line and showed in comparison to PM material an increased inhibitor capacity in a T-cell-mediated tumor-specific cytotoxicity test.     

Modification of tumor cells by a low dose of Newcastle disease virus. III. Potentiation of tumor-specific cytolytic T cell activity via induction of interferon-alpha/beta

To investigate possibilities of augmenting tumor-specific immune responses against the highly metastatic murine lymphoma ESb, we tested the effects of the interferon inducer newcastle disease virus (NDV) or of interferon-alpha/beta as costimulator in mixed lymphocyte-tumor cell cultures (MLTC) on the tumor-specific cytolytic T cell (CTL) response. Both approaches, namely stimulation of ESb immune spleen cells with NDV-modified stimulator cells or with ESb stimulator cells and exogenous IFN-alpha/beta, led to a selective potentiation of tumor-specific CTL activity. The potent activation of tumor-specific CTL precursor (CTLP) required the simultaneous presence of the specific ESb tumor antigen--possibly to mediate a signal via the corresponding T cell receptor--and costimulators--possibly to mediate second activation signals. Increased CTL activity required only very low amounts of NDV or IFN-alpha/beta. The generation of CTL activity in the MLTC cultures could be blocked by antisera to IFN-alpha/beta, not, however by control sera. Similar effects were observed in vivo, suggesting that IFN-alpha/beta not only caused an increase in CTL activity, but was essential for the generation of CTL activity. The reduction of the generation of CTL by antiserum to IFN-alpha/beta could be overcome by excess interferon, especially when using ESb-NDV as stimulator cells.     

Recruitment and activation of tumor-specific immune T cells in situ. CD8+ cells predominate the secondary response in sponge matrices and exert both delayed-type hypersensitivity-like and cytotoxic T lymphocyte activity

This study analyzes the involvement of CD4+ and CD8+ T cells in a secondary cellular immune response to the highly metastatic murine lymphoma ESb in situ. This tumor line expresses tumor-associated transplantation Ag which can induce protective immunity in vivo and specific CTL in vitro. In tumor-immune mice the injection of a tumor vaccine (x-irradiated ESb tumor cells) into s.c. implanted vascularized sponges resulted in the generation of a specific secondary immune response characterized by massive leukocyte recruitment and generation of strong CTL activity at the restimulation site. During the antitumor immune response the CD4+:CD8+ T cell ratio decreased significantly and specifically in the restimulated sponges. Depletion of CD8+ but not CD4+ T cells from the tumor immune mice before restimulation significantly reduced the delayed-type hypersensitivity-like response and totally blocked the generation of tumor-specific CTL activity in situ. Only a minority of the CD8+ immune T cells which predominated the secondary response in situ expressed IL-2R and lymph node homing receptors as detected by the mAb MEL-14.     

Prolongation of survival of mice bearing the Eb and ESb lymphoma by treatment with interferon inducers alone or in combination with Corynebacterium parvum

Summary The objective of this study was to evaluate if pretreatment with Corynebacterium parvum (C. parvum) augments the effects of interferon (IFN) inducers on survival of DBA/2 mice transplanted with two syngeneic lymphoma variants, the low metastatic Eb and the high metastatic ESb tumor. The involvement of IFN in the treatment effects was investigated. As inducers of IFN-/ Newcastle disease virus (NDV), polyinosinic-polycytidylic acid (polyI:polyC), and 10-carboxymethyl-9-acridanone (CMA) were injected i. p. at the site of tumor transplantation. The Eb tumor was found to be sensitive to the antiproliferative action of IFN-/ in vitro. In vivo single injections of each of the inducers retarded growth of the Eb tumor. In C. parvum-pretreated mice the effects of the inducers on survival were markedly increased. There was a correlation between prolonged survival and local IFN levels in response to polyI:polyC or CMA but not upon NDV. Injections of each of the inducers increased cytotoxicity of peritoneal exudate cells against the Eb tumor cells in vitro especially when mice were pretreated with C. parvum. Although other mechanisms cannot be excluded IFN-mediated activation of host defence and also direct antiproliferative effects of endogenously produced IFN seem to be involved in the antitumor effects by these IFN inducers in the Eb model. In the ESb tumor model irrespective of additional pretreatment with C. parvum survival was only slightly prolonged by the treatments and endogenous IFN induction did not result in any real benefit for the animals. When compared with Eb cells the ESb cells were less sensitive to the antiproliferative action of IFN-/ in vitro and less sensitive to in vitro cytotoxicity by the host cells. Although other mechanisms may additionally be active in vivo the different susceptibility of the Eb and ESb tumor cells to the direct and indirect actions of IFN seems to contribute to the different responsiveness of these tumor cell lines to the treatments with IFN inducers.     

Transfer of long-lasting tumor immunity by immune T cells from MHC congenic mice: Migration,survival and tumor-protectivity of cytotoxic donor cells

Immunocompetent B10.D2 (H-2^d) mice are able to reject the highly malignant lymphoma ESb of DBA/2 (H-2^d) origin very effectively. Seven days after intravenous injection of the ESb tumor cells, B10.D2 mice developed a strong tumor-rejection response which was associated with the generation of anti-tumor T cells in their spleens with direct cytotoxic activity. Most of the cytotoxic potential was directed against the minor histocompatibility differences as demonstrated by the lysis of unrelated DBA/2 derived Eb tumor cells and normal DBA/2 but no B10.D2 derived ConA lymphoblasts. A previously performed clonal analysis, however, revealed a minority population of CTL clones which specifically recognized the ESb specific transplantation antigen (ESb-TATA). When transferred systemically into DBA/2 mice, the B10.D2 anti-ESb immune spleen cells could delay the outgrowth of s.c. transplanted ESb tumor cells. When the ESb tumor cells were experimentally distributed in a s.c. implanted sponge-matrix, the i.v. injected B10.D2 immune cells could confer complete protective immunity against the metastatic tumor, provided the recipients were pre-treated with 5 Gy to allow a better take of the allogeneic cells. The distribution of intravenously injected B 10D2 donor spleen cells was assessed in the recipients up to 50 days by cytotoxicity testing and assaying for the expression of the ₂ microglobulin allelic form b ( ₂m^b). These tests revealed a high propensity of donor cells to populate the spleen and lymph nodes of the DBA/2 recipients. Again this was particularly marked in sublethally irradiated mice where a long-lasting lymphoid chimerism was established.     

Modification of tumor cells by a low dose of Newcastle disease virus

Summary Augmented tumor-specific T cell responses were observed against the high metastatic murine lymphoma variant ESb when using as immunogen ESb tumor cells that had been modified by infection with a low dose of Newcastle disease virus (NDV). Such virus-modified inactivated tumor cells (ESb-NDV) were potent tumor vaccines when applied postoperatively for active specific immunotherapy of ESb metastases. We demonstrate here that immune spleen cells from mice immunized with ESb-NDV contain enhanced immune capacity in both the CD4⁺, CD8^– and the CD4^–, CD8⁺ T cell compartments to mount a secondary-tumor-specific cytotoxic T cell response in comparison with immune cells from mice immunized with ESb. ESb-NDV immune CD4⁺, CD8^– helper T cells also produced more interleukin 2 after antigen stimulation than the corresponding ESb immune cells. There was no participation of either CD4⁺ or CD8⁺ virus-specific cells in the augmented response. The specificity of the T cells for the tumor-associated antigen remaind unchanged. Thus, there is the paradox that the virus-mediated augmentation of the tumor-specific T cell response in this system involves increased T helper activity but does not involve the recognition of viral epitopes as potential new helper determinants.Abbreviations CTL cytolytic T lymphocytes - IL-2 interleukin 2 - rIL-2 recombinant IL-2 - mAb monoclonal antibody - NDV Newcastle disease virus - SSC syngeneic spleen cell     

Specific eradication of micrometastases by transfer of tumour-immune T cells from major-histocompatibility-complex congenic mice

Summary DBA/2 (H-2^d) mice bearing a transplanted highly metastatic lymphoma (ESb) in a state of widely disseminated disease could be successfully treated by a combination of surgery (removal of the local tumour), irradiation (5 Gy) and adoptive immunotherapy. The immunotherapy was achieved by transfer of anti-ESb-immune spleen cells from B10.D2 mice, which express the same major histocompatibility complex (MHC) molecules as DBA/2. In contrast, anti-ESb-immune cells from MHC-disparate C57BL/6 mice did not confer protective immunity. The B10.D2 anti-ESb-immune T cells contain two types of cytolytic specificity as detected by limiting-dilution analysis: (1) clones with specificity for the ESb-tumour-associated transplantation antigen (TATA) (at low frequency), and (b) clones with specificity for minor DBA/2 histocompatibility (H) antigens (at high frequency). Immune B10.D2 cells raised against different tumour lines or against TATA^– ESb tumour variants did not confer the 100% protection seen with immune cells against ESb TATA⁺ cells. Finally we demonstrate that the allogeneic immune cells are more potent in terms of protective immunity than corresponding syngeneic immune cells. The data suggest that the strong graft-versus-leukemia effect with immune T cells from allogeneic MHC-identical but not from MHC-disparate mice was due to T cells with MHC-restricted specificity for an ESb-associated TATA. A graft-versus-host reactivity that developed much later and could not be prevented was most likely due to T cells sensitized against normal minor H antigens of the host. Our results are of potential relevance for allogeneic bone marrow transplantation and adoptive immunotherapy protocols.     

Recognition of Rous sarcoma virus-induced tumor antigens by cytotoxic T lymphocytes (CTL): studies on specificity of killing by CTL employing H-2 congenic and recombinant mouse tumor cells

The specificities of cytotoxic T lymphocytes (CTL) were studied for the analysis of CTL against tumor-specific cell surface antigen(s) (TSSA) of non-virus-producing tumor cells induced by the Schmidt-Ruppin strain of Rous sarcoma virus (SR-RSV) in B10 congenic and recombinant mice. Eight CTL clones were established from immune spleen cells of B10.A(5R) mice. These clones demonstrated six patterns of cytotoxic reactivity in vitro: Two clones showed H-2 restriction in tumor cell lysis. Two other clones had the capacity to lyse syngeneic, H-2K-compatible B10 and H-2-incompatible B10.A(4R) tumor cells, but not YAC-1 cells. One clone had cytotoxic activity against syngeneic, H-2D-compatible B10.D2 tumor cells and YAC-1 cells, but not against H-2-incompatible tumor cells. One clone had cytotoxic activity against syngeneic and YAC-1 tumor cells, but not against either H-2-compatible or H-2-incompatible tumor cells. One clone had lytic activity to syngeneic, H-2-compatible, H-2-incompatible, and YAC-1 tumor cells. Another clone killed H-2-incompatible B10.A(4R) tumor and YAC-1 cells, but not syngeneic or H-2-compatible tumor cells. All these clones strongly expressed surface Thy-1.2 antigens, whereas the expression of Lyt-1.2 and Lyt-2.2 antigens was different from clone to clone. These results demonstrate heterogeneity of both lytic specificity and phenotype of CTL against RSV-induced mouse tumor cells, suggesting the existence of multiple antigenic sites on the RSV TSSA recognized by CTL populations.     

Alteration of the metastatic potential of line 1 lung carcinoma cells: opposite effects of class I antigen induction by interferons versus DMSO or gene transfection.

Class I antigens are necessary for the recognition of tumor cells by cytotoxic T lymphocytes (CTL). The line 1 lung carcinoma is a spontaneous murine tumor deficient in class I antigen expression. Consistent with this, line 1 cells are highly metastatic in vivo. We investigated whether increasing class I antigen expression on line 1 cells could alter the metastatic potential of these tumor cells using an in vivo lung metastasis model. We used three methods to induce class I antigen expression on line 1 cells: gene transfection, treatment with dimethyl sulfoxide (DMSO), or treatment with interferon (IFN)-beta or -gamma. We found that line 1 cells expressing a transfected class I gene were significantly less metastatic than parental line 1 cells. DMSO-treated line 1 cells also formed significantly fewer metastases than parental line 1 cells. These results indicate that increased class I antigen expression decreases the metastatic potential of line 1 cells in vivo. However, we did not observe a significant decrease in the number of lung metastases in mice receiving line 1 cells treated with IFN-beta or -gamma, despite high levels of class I antigen expression. Thus, increasing class I antigen expression with IFN has an opposite effect on metastasis from class I antigen expression induced by transfection or DMSO. These results show that the method used to increase class I antigen expression is critical in terms of the in vivo effect observed. To investigate a possible mechanism for the differences observed in vivo between these class I expressing cells, we tested whether IFN alters or blocks susceptibility of line 1 cells to immune effector cells. We found IFN treatment increased the ability of line 1 cells to be recognized by CTL but concomitantly decreased the susceptibility of line 1 cells to NK cell lysis by a non-class I antigen-related mechanism. In contrast, transfected or DMSO-treated line 1 cells which were less metastatic in vivo were susceptible to both CTL and NK-mediated lysis. Taken together, these results suggest that immune intervention against metastasizing line 1 cells may involve NK cells and CTL.     

Human T-cell leukemia virus type I infection of CD4+ or CD8+ cytotoxic T-cell clones results in immortalization with retention of antigen specificity.

The human T-cell leukemia virus type I (HTLV-I) is capable of chronically infecting various types of T cells and nonlymphoid cells. The effects of chronic infection on the specific functional activities and growth requirements of mature cytotoxic T lymphocytes (CTL) have remained poorly defined. We have, therefore, investigated the results of HTLV-I infection of both CD4+ and CD8+ human CTL clones. HTLV-I infection resulted in the establishment of functional CTL lines which propagated indefinitely in culture many months longer than the uninfected parental clone. The infected cells became independent of the need for antigen (target cell) stimulation as a requirement for proliferation and growth. Like their uninfected counterparts, however, these HTLV-I-infected clones remained strictly dependent on conditioned medium from mitogen-stimulated T lymphocytes for their growth. This growth factor requirement was not fulfilled by recombinant interleukin-2 alone. Furthermore, the infected lines remained functionally identical to their uninfected parental CTL clones in their ability to specifically recognize and lyse the appropriate target cells. Our findings indicate that the major effects of HTLV-I infection on mature CTL consist of (i) the capacity for proliferation in the absence of antigen stimulation and (ii) a prolonged or immortal survival in vitro, but they also indicate that the fine specificity and cytolytic capacity of these cells remain unaffected.     

Tumor-infiltrating CD4+ T lymphocytes express APO2 ligand (APO2L)/TRAIL upon specific stimulation with autologous lung carcinoma cells: role of IFN-alpha on APO2L/TRAIL expression and -mediated cytotoxicity

In the present report, we have investigated TRAIL/APO2 ligand (APO2L) expression, regulation, and function in human lung carcinoma tumor-infiltrating lymphocytes. Using a panel of non-small cell lung carcinoma cell lines, we first showed that most of them expressed TRAIL-R1/DR4, TRAIL-R2/DR5, but not TRAIL-R3/DcR1 and TRAIL-R4/DcR2, and were susceptible to APO2L/TRAIL-induced cell death. Two APO2L/TRAIL-sensitive tumor cell lines (MHC class I(+)/II(+) or I(+)/II(-)) were selected and specific CD4(+) HLA-DR- or CD8(+) HLA-A2-restricted CTL clones were respectively isolated from autologous tumor-infiltrating lymphocytes. Interestingly, although the established T cell clones did not constitutively express detectable levels of APO2L/TRAIL, engagement of their TCR via activation with specific tumor cells selectively induced profound APO2L/TRAIL expression on the CD4(+), but not on the CD8(+), CTL clones. Furthermore, as opposed to the CD8(+) CTL clone which mainly used granule exocytosis pathway, the CD4(+) CTL clone lysed the specific target via both perforin/granzymes and APO2L/TRAIL-mediated mechanisms. The latter cytotoxicity correlated with APO2L/TRAIL expression and was significantly enhanced in the presence of IFN-alpha. More interestingly, in vivo studies performed in SCID/nonobese diabetic mice transplanted with autologous tumor and transferred with the specific CD4(+) CTL clone in combination with IFN-alpha resulted in an important APO2L/TRAIL-mediated tumor growth inhibition, which was prohibited by soluble TRAIL-R2. Our findings suggest that APO2L/TRAIL, specifically induced by autologous tumor and up-regulated by IFN-alpha, may be a key mediator of tumor-specific CD4(+) CTL-mediated cell death and point to a potent role of this T cell subset in tumor growth control.     

Simultaneous expression of allogenic class II MHC and B7.1 (CD80) molecules in A20 B-lymphoma cell line enhances tumor immunogenicity

We expressed the allogenic class II MHC antigen and B7.1 (CD80) co-stimulatory molecule in A20 beta-lymphoma cells in order to test their efficacy as immuno-stimulating adjuvant agents in inducing tumor-specific immunity. The transduction of the allogenic I-Ab alpha and beta chain genes into A20 cell resulted in a surface expression of the allogenic class II MHC molecules. The expression of the allogenic class II MHC antigen (I-Ab) in A20 cells enhanced the proliferation of T cells in a mixed lymphocyte tumor culture and in vitro cytotoxic T lymphocyte (CTL) generation against parental cells. The B7.1 gene, which is known to be a potent co-stimulatory molecule, was also transduced and expressed in A20 cells, either alone or in combination with I-Ab. The B7.1 transduction alone leads to a similar in vitro immune enhancing effect as I-Ab. When both the I-Ab and B7.1 genes were transduced, the in vitro immunostimulating capacity was further enhanced. Finally, we also tested the A20 cells that were transduced with I-Ab and/or B7.1 for their efficacy as preventive tumor vaccines in vivo. The results indicate that the A20 cells that express both the I-Ab and B7.1 have more potent vaccinating potential, compared to the cells that express only one of the molecules.     

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.     

Using virally expressed melanoma cDNA libraries to identify tumor-associated antigens that cure melanoma

Multiple intravenous injections of a cDNA library, derived from human melanoma cell lines and expressed using the highly immunogenic vector vesicular stomatitis virus (VSV), cured mice with established melanoma tumors. Successful tumor eradication was associated with the ability of mouse lymphoid cells to mount a tumor-specific CD4(+) interleukin (IL)-17 recall response in vitro. We used this characteristic IL-17 response to screen the VSV-cDNA library and identified three different VSV-cDNA virus clones that, when used in combination but not alone, achieved the same efficacy against tumors as the complete parental virus library. VSV-expressed cDNA libraries can therefore be used to identify tumor rejection antigens that can cooperate to induce anti-tumor responses. This technology should be applicable to antigen discovery for other cancers, as well as for other diseases in which immune reactivity against more than one target antigen contributes to disease pathology.     

Clonal analysis in the ultrastructure of cell-to-cell interaction between a human glioma cell line and autologous tumor-specific cytotoxic T lymphocytes

The clonal analysis in the ultrastructure of tumor-lymphocyte interaction was carried out in order to investigate the precise mechanism responsible for CTL-mediated cytolysis of tumor cells. A glioma-derived cell line (GI-1) and autologous tumor-specific cytotoxic T lymphocyte (CTL) clones were established. The CTL lines were composed of the morphologically homogeneous lymphocytes with intracytoplasmic electron-dense secretory granules. After the stimulation by GI-1, the size of the CTLs increased, and the intracytoplasmic organellas were developed. It was noted that the intracytoplasmic secretory granules markedly increased in number and size, and many of them exhibited an "immature" appearance. On the other hand, the tumor cells underwent a progressive degeneration. In contrast, the stimulation by other antigens caused only small morphological changes in the CTLs. It is suggested, therefore, that the secretory function of tumor-specific CTLs is activated by the stimulation of the specific antigen, and that soluble factors in the secretory granules in the CTLs may be closely associated with the mechanism of target cell lysis.     

Spontaneous in vitro evolution of lytic specificity of cytotoxic T lymphocyte clones isolated from murine intestinal epithelium

Three long-term clonally derived cytotoxic lines have been established from isolates of murine intraepithelial lymphocytes (IEL). All three lines were selected for with antigen and represent two allospecific cytotoxic T lymphocyte (CTL) clones and a major histocompatibility complex (MHC)-restricted clone specific for a murine minor histocompatibility antigen. On long-term in vitro culture, IEL clones gradually lost antigen-specific lytic activity and simultaneously acquired the capacity to lyse natural killer (NK)-sensitive target cells which, in some cases, required high-level lymphokine activation. Of interest was the finding that, despite changes in lytic specificity, IEL clones remained strictly antigen-dependent for proliferation. A murine CTL clone of splenic origin, which was propagated under culture conditions identical to those used for IEL, did not exhibit changes in lytic specificity, suggesting that acquired changes in IEL function cannot be attributed solely to the influence of in vitro culture. Phenotypic analyses of IEL clones with altered lytic specificity revealed that all lines remained Thy-1+, Lyt-2+, L3T4-, with or without lytic activation by lymphokines. The expression of CT-1, a murine CTL activation antigen, and asialo GM1, a murine NK cell marker, were variable on IEL clones, and their presence did not correlate with the changes in lytic behavior. Collectively, these findings provide evidence, at the clonal level, that at least some NK activity present in isolates of murine IEL may originate from antigen-specific CTL. The data also indicate that, on binding antigen, different signals are conveyed to T cells, resulting in proliferation or target cell lysis.     

A new tumor-specific antigen encoded by <Emphasis Type="Italic">MAGE-C2</Emphasis> and presented to cytolytic T lymphocytes by HLA-B44

A panel of cytolytic T lymphocyte (CTL) clones was isolated from metastases and blood samples of a melanoma patient vaccinated with MAGE-3.A1-pulsed autologous dendritic cells. We report here the identification of a new antigen encoded by the MAGE-C2 cancer-germline gene. This antigen is recognized by some of these CTL on HLA-B*4403. The sequence of the peptide is SESIKKKVL. It is processed in various melanoma cell lines expressing MAGE-C2 and HLA-B*4403. Because of the expression pattern of gene MAGE-C2, this new antigen is strictly tumor-specific and could therefore be used for peptide-based antitumoral vaccination.