Increase in the ability of human cancer cells to induce cytotoxic T lymphocytes by ultraviolet irradiation

The roles of ultraviolet-B (UV) radiation in the immunogenicity of human cancer cells have not been fully studied. We have investigated the effects of UV radiation on metastatic melanoma and renal cell carcinoma cells with regard to MHC antigen expression and the ability to induce cytotoxic T lymphocyte (CTL) activity in peripheral blood mononuclear cells (PBMC) or tumor-infiltrating lymphocytes (TIL) against untreated autologous tumor cells. UV radiation respectively decreased or increased MHC class I expression of freshly isolated tumor cells or cultured tumor cells, and also decreased MHC class I expression of starved cultured tumor cells. It increased the ability of both freshly isolated and cultured tumor cells to induce CTL activity from PBMC against untreated autologous tumor cells. UV-irradiated subclones that were more susceptible to CTL lysis were more potent for CTL induction from TIL than either an untreated parental clone or a UV-irradiated subclone that was resistant to CTL lysis. In summary, UV radiation increased the ability of tumor cells to induce CTL activity without a corresponding effect on MHC antigen expression.This work was supported in part by a grant CA47891 from the National Cancer Institute, USA, a grant-in-aid of the comprehensive 10-years strategy for cancer control from ministry of a Health and Welfare, Japan, and the Ishibashi Research Fund, Japan     

Divergent roles for CD4+ T cells in the priming and effector/memory phases of adoptive immunotherapy

The requirement for CD4(+) Th cells in the cross-priming of antitumor CTL is well accepted in tumor immunology. Here we report that the requirement for T cell help can be replaced by local production of GM-CSF at the vaccine site. Experiments using mice in which CD4(+) T cells were eliminated, either by Ab depletion or by gene knockout of the MHC class II beta-chain (MHC II KO), revealed that priming of therapeutic CD8(+) effector T cells following vaccination with a GM-CSF-transduced B16BL6-D5 tumor cell line occurred independently of CD4(+) T cell help. The adoptive transfer of CD8(+) effector T cells, but not CD4(+) effector T cells, led to complete regression of pulmonary metastases. Regression of pulmonary metastases did not require either host T cells or NK cells. Transfer of CD8(+) effector T cells alone could cure wild-type animals of systemic tumor; the majority of tumor-bearing mice survived long term after treatment (>100 days). In contrast, adoptive transfer of CD8(+) T cells to tumor-bearing MHC II KO mice improved survival, but eventually all MHC II KO mice succumbed to metastatic disease. WT mice cured by adoptive transfer of CD8(+) T cells were resistant to tumor challenge. Resistance was mediated by CD8(+) T cells in mice at 50 days, while both CD4(+) and CD8(+) T cells were important for protection in mice challenged 150 days following adoptive transfer. Thus, in this tumor model CD4(+) Th cells are not required for the priming phase of CD8(+) effector T cells; however, they are critical for both the complete elimination of tumor and the maintenance of a long term protective antitumor memory response in vivo.     

Tissue distribution of human minor histocompatibility antigens. Ubiquitous versus restricted tissue distribution indicates heterogeneity among human cytotoxic T lymphocyte-defined non-MHC antigens.

We determined the tissue distribution of 7 human minor histocompatibility (H) Ag. Each of these Ag is defined by one or more MHC class I-restricted CTL clones, previously generated from PBL primed against minor H Ag by HLA-identical bone marrow transplantation (BMT). CTL-mediated lysis of tissue-derived cells and cultured cell lines was used as an in vitro assay for minor H Ag expression of several human tissues. The Ag HA-3 (HLA-A1-restricted), HA-4 (HLA-A2 restricted), HA-6 and HA-7 (HLA-B7 restricted), and the male-specific Ag H-Y (HLA-A2 and B7 restricted) were found to be expressed on cells of all tissues tested. In contrast, the HLA-A2-restricted Ag HA-1 and HA-2 were demonstrated on PHA-blasts, EBV-BLCL, purified T cells, B cells, monocytes, and immature thymocytes, but could not be demonstrated on skin-derived cultured fibroblasts, keratinocytes, melanocytes, cultured epithelial cells of kidney proximal tubili, and umbilical cord vein-derived endothelial cells. Incubation of the latter cell lines with rIFN-gamma, rTNF-alpha, and/or rIL-1 alpha, in concentrations shown to maximally increase their susceptibility to lysis by allo-MHC class I CTL, did not induce recognition by HA-1- and HA-2-specific CTL in vitro. These results indicate an ubiquitous tissue expression of the minor H Ag HA-3, -4, -6, -7 and H-Y in contrast to a to the hemopoietic cell lineage-restricted expression for HA-1 and HA-2. The heterogeneity in tissue expression of T cell-defined, class I-restricted non-MHC Ag implies that they might be derived from intracellular proteins with either an ubiquitous or a more specialized cell type-specific function.     

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.     

Adoptive chemoimmunotherapy of murine leukemia with helper T lymphocyte clones

Antigen-specific syngeneic noncytolytic helper T lymphocyte clones were investigated for their ability to mediate successful adoptive chemoimmunotherapy (ACIT) of mice with established RBL5 tumors. Clone B10, specific for the viral coat m.w. 70,000 glycoprotein, could be rapidly activated in situ after local transfer with intact tumor cells in syngeneic hosts to produce a delayed-type hypersensitivity reaction. For ACIT, mice bearing 5-day-old tumors received cyclophosphamide followed by transfer of resting helper T lymphocyte clones with or without exogenous interleukin 2 (rIL-2). A single injection of clone B10 was effective in ACIT when followed by a short course of exogenous rIL-2. Alternatively, repeated injections of resting clone were also effective without exogenous rIL-2, suggesting that the major role for rIL-2 was prolongation of clone survival in vivo rather than activation of other effector cells. Clone F12, specific for a component of fetal calf serum, was not effective in ACIT either with or without rIL-2, even when administered under conditions known to result in clone activation. Thus, antigen-specific helper T lymphocyte clones are capable of activation and promotion of antitumor responses after adoptive transfer.     

Generation of tumor-reactive CTL against the tumor-associated antigen HER2 using retrovirally transduced dendritic cells derived from CD34+ hemopoietic progenitor cells

Ag-specific CD8+ CTL are crucial for effective tumor rejection. Attempts to treat human malignancies by adoptive transfer of tumor-reactive CTL have been limited due to the difficulty of generating and expanding autologous CTL with defined Ag specificity. The current study examined whether human CTL can be generated against the tumor-associated Ag HER2 using autologous dendritic cells (DC) that had been genetically engineered to express HER2. DC progenitors were expanded by culturing CD34+ hemopoietic progenitor cells in the presence of the designer cytokine HyperIL-6. Proliferating precursor cells were infected by a retroviral vector encoding the HER2 Ag and further differentiated into CD83+ DC expressing high levels of MHC, adhesion, and costimulatory molecules. Retroviral transduction of DC resulted in the expression of the HER2 molecule with a transduction efficiency of 15%. HER2-transduced DC correctly processed and presented the Ag, because HLA-A*0201-positive DC served as targets for CTL recognizing the HLA-A*0201-binding immunodominant peptide HER2(369-377). HER2-transduced DC were used as professional APCs for stimulating autologous T lymphocytes. Following repetitive stimulation, a HER2-specific, HLA-A*0201-restricted CTL line was generated that was capable of lysing HLA-A*0201-matched tumor cells overexpressing HER2. A CD8+ T cell clone could be generated that displayed the same specificity pattern as the parenteral CTL line. The ability to generate and expand HER2-specific, MHC class I-restricted CTL clones using HER2-transduced autologous DC in vitro facilitates the development of adoptive T cell transfer for patients with HER2-overexpressing tumors without the requirement of defining immunogenic peptides.     

Induction and large-scale expansion of CD8+ tumor specific cytotoxic T lymphocytes from peripheral blood lymphocytes by in vitro stimulation with CD80-transfected autologous melanoma cells.

Human melanoma cell lines may induce a specific T cell response against tumor cells in vitro. However, after repeated restimulation with autologous tumor cells, expansion of CTL is limited and often apoptosis of the T cells occurs. In order to improve conditions inducing primary T cell responses and thus allowing further expansion of tumor specific T cells for an adoptive transfer, we transfected human melanoma cells with the B7.1 gene (CD80), known to be a potent costimulatory molecule for T cell activation. CD80 expression on melanoma cells resulted in improved primary T cell activation, especially of CD8+ T cells. Furthermore, restimulation with CD80+ tumor cells gave rise to long term proliferating CD8+ T cell lines demonstrating an 100-fold expansion of T cells compared to the 20-30-fold increased numbers obtained with the controls (parental tumor cells +/- anti-CD28). T cells stimulated with CD80+ melanoma cells were found to display a MHC class I-restricted cytotoxic activity against the autologous tumor cells. In conclusion, these studies demonstrate the requirement of costimulation in generating large numbers of tumor specific T cells in vitro that may be used for an adoptive transfer in tumor immunotherapy.     

Retrovirus-induced changes in major histocompatibility complex antigen expression influence susceptibility to lysis by cytotoxic T lymphocytes

Retrovirus infection of murine fibroblasts was found to alter the expression of major histocompatibility complex (MHC) antigens. Fibroblasts infected with Moloney murine leukemia virus (M-MuLV) exhibited up to a 10-fold increase in cell surface expression of all three class I MHC antigens. Increases in MHC expression resulted in the increased susceptibility of M-MuLV-infected cells to lysis by allospecific cytotoxic T lymphocytes (CTL). M-MuLV appears to exert its effect at the genomic level, because mRNA specific for class I antigens, as well as beta 2-microglobulin, show a fourfold increase. Fibroblasts infected with the Moloney sarcoma virus (MSV):M-MuLV complex show no increase in MHC antigen expression or class I mRNA synthesis, suggesting that co-infection with MSV inhibits M-MuLV enhancement of MHC gene expression. Quantitative differences in class I antigen expression on virus-infected cells were also found to influence the susceptibility of infected cells to lysis by H-2-restricted, virus-specific CTL. Differential lysis of infected cells expressing varied levels of class I antigens by M-MuLV-specific bulk CTL populations and CTL clones suggests that individual clones may have different quantitative requirements for class I antigen expression. The MSV inhibition of MHC expression could be reversed by interferon-gamma. Treatment of MSV:M-MuLV-infected fibroblasts with interferon-gamma increased their susceptibility to lysis by both allogeneic and syngeneic CTL. The data suggest that interferon-gamma may function in the host's immune response to viral infections by enhancing MHC antigen expression, thereby increasing the susceptibility of virus-infected cells to lysis by H-2-restricted, virus-specific CTL.     

CTL adoptive immunotherapy concurrently mediates tumor regression and tumor escape

Tumor escape and recurrence are major impediments for successful immunotherapy. It is well-documented that the emergence of Ag-loss variants, as well as regulatory mechanisms suppressing T cell function, have been linked to inadequate antitumor activity. However, little is known regarding the role of Fas-mediated cytotoxicity by tumor-specific CD8(+) CTL in causing immune evasion of Fas resistant variants during adoptive immunotherapy. In this study, we made use of an adoptive transfer model of experimental lung metastasis using tumor-specific CTL as a relevant immune-based selective pressure, and wherein the Fas ligand pathway was involved in the antitumor response. Surviving tumor cells were recovered and examined for alterations in antigenic, functional, and biologic properties. We showed that diminished susceptibility to Fas-mediated cytotoxicity in vivo was an important determinant of tumor escape following CTL-based immunotherapy. Tumor escape variants (TEV) recovered from the lungs of CTL-treated mice exhibited more aggressive behavior in vivo. However, these TEV retained relevant MHC class I and tumor Ag expression and sensitivity to CTL via the perforin pathway but reduced susceptibility to Fas-mediated lysis. Moreover, TEV were significantly less responsive to eradication by CTL adoptive immunotherapy paradigms as a consequence of increased Fas resistance. Overall, we identified that Fas(low)-TEV emerged as a direct consequence of CTL-tumor interactions in vivo, and that such an altered neoplastic Fas phenotype compromised immunotherapy efficacy. Together, these findings may have important implications for both tumor progression and the design of immunotherapeutic interventions to confront these selective pressures or escape mechanisms.     

NKT cells provide help for dendritic cell-dependent priming of MHC class I-restricted CD8+ T cells in vivo

Dendritic cells (DC) are potent APCs for naive T cells in vivo. This is evident by inducing T cell responses through adoptive DC transfer. Priming specific CTL responses in vivo often requires "help". We study alternative sources of help in DC-dependent priming of MHC class I-restricted CTL. Priming an anti-viral CTL response in naive B6 mice by adoptive transfer of antigenic peptide-pulsed DC required CD4(+) T cell help. CTL priming was facilitated by providing MHC class II-dependent specific help. Furthermore, transfers of MHC class II-deficient pulsed DC into naive, normal hosts, or DC transfers into naive, CD4(+) T cell-depleted hosts primed CTL inefficiently. Pretreatment of DC with immune-stimulating oligodeoxynucleotides rendered them more efficient for CD4(+) T cell-independent priming of CTL. DC copresenting a K(b)-binding antigenic peptide and the CD1d-binding glycolipid alpha-galactosyl-ceramide efficiently primed CTL in a class II-independent way. To obtain NKT cell-dependent help in CTL priming, the same DC had to present both the peptide and the glycolipid. CTL priming by adoptive DC transfer was largely NK cell-dependent. The requirement for NK cells was only partially overcome by recruiting NKT cell help into DC-dependent CTL priming. NKT cells thus are potent helper cells for DC-dependent CTL priming.     

Therapy of murine leukemia with cyclophosphamide and immune Lyt-2+ cells: cytolytic T cells can mediate eradication of disseminated leukemia

Several animal models have been developed in which the adoptive transfer of specifically immune syngeneic T cells has been shown to mediate the eradication of established tumors. In adoptive chemoimmunotherapy (ACIT) of disseminated FBL leukemia with cyclophosphamide and immune T cells, the major effector T cell has been shown to be a noncytolytic Lyt-1+2- T cell that mediates its therapeutic effect without the participation of CTL. Because studies in other models have suggested that CTL can mediate an anti-tumor effect, the efficacy of Lyt-2+ T cells rendered highly cytolytic before adoptive transfer in ACIT of disseminated FBL was examined. The results demonstrated that such CTL had a detectable but limited therapeutic effect in the treatment of FBL. Because this limited activity of transferred purified CTL might have reflected a requirement for helper T cells to produce IL 2 for promotion of the in vivo survival and proliferation of the CTL, the effect of administering IL 2 to tumor-bearing hosts after transfer of CTL was examined. A dose of IL 2 previously shown to induce in vivo proliferation of transferred T cells rendered CTL that were minimally effective alone curative in ACIT of FBL leukemia. Thus, either lymphokine-producing T cells or the lymphokines produced by these cells are necessary for the full expression of the in vivo therapeutic potential of CTL.     

Mechanism of cytolytic T lymphocyte killing of a low class I-expressing tumor

Many tumors have been shown to express minimal levels of class I MHC Ag, which makes them more resistant to recognition and lysis by cytolytic T lymphocytes. Line 1, a BALB/c spontaneous lung carcinoma, normally expresses very low levels of class I Ag, but expression can be increased 50-fold by treatment with agents such as DMSO or IFN-gamma. Because class I Ag serve as restricting elements for cytolytic T cell recognition of tumor Ag, we wished to determine if cytotoxic T lymphocytes could play a role in the immune response to this type of class I low, but inducible, tumor. After immunization in vivo and restimulation of splenic cells in vitro we were able to generate T cell clones that lysed line 1 cells induced to express high levels of class I, but did not lyse uninduced, low class I expressing line 1 cells in short term (6-h) 51Cr release assays. Paradoxically, incubation of the T cells with uninduced class I low line 1 cells for a few days resulted in complete destruction of the tumor cells. We demonstrate that the T cells, stimulated by the tumor cells, produce IFN-gamma, which in turn induces class I expression on the line 1 cells making them susceptible to lysis by the T cell clone. This suggests that a positive feedback reaction can occur in generating a response to this and perhaps other inducible tumor cell lines.     

Treatment of human colon carcinoma cell lines with anti-neoplastic agents enhances their lytic sensitivity to antigen-specific CD8+ cytotoxic T lymphocytes

Certain anti-neoplastic agents at subtoxic doses may exert immunomodulatory effects, which alter the expression of specific tumor cell surface molecules. We reasoned that potential increases in tumor cell surface markers, such as those important for facilitating effector-target contact, as well as triggering cell death pathways, might then improve antigen (Ag)-specific T-cell-mediated tumor cytolysis. Here, in a human colon carcinoma cell model in vitro, we examined whether the anti-neoplastic agents 5-fluorouracil (5-FU), CPT-11 or cisplatin (CDDP) could upregulate the expression of specific tumor cell surface markers, which may then enhance productive lytic interactions between CD8+ CTL and Ag-bearing tumor cells. Based on our earlier studies, IFN-gamma treatment was included as a control for sensitization to CTL-mediated lysis. Pretreatment of the SW480 primary colon carcinoma cell line with IFN-gamma, 5-FU, CPT-11 or CDDP enhanced ICAM-1 and Fas expression, resulting in Ag-specific CTL-mediated lysis involving Fas-dependent and -independent mechanisms. In contrast, pretreatment of the SW620 metastatic isolate, derived from the same patient, with IFN-gamma, CPT-11 or CDDP, but not 5-FU, enhanced ICAM-1 expression, resulting in Ag-specific CTL-mediated lysis via Fas-independent mechanisms only. Flow cytometric-based assays were then developed to measure the effects of drug treatment on caspase signaling and apoptosis incurred by tumor targets after interaction with CTL. We found that the lytic enhancement caused by drug treatment of SW480 or SW620 targets was accompanied by an increase in caspase-3-like protease activity. A peptide-based caspase inhibitor abrogated CTL-mediated apoptosis, suggesting that "chemomodulation" involved regulation of the caspase pathway. These results revealed for the first time an important role for components of the caspase pathway, such as caspase-3-like proteases, in the sensitization of human colon carcinoma cells by anti-neoplastic agents to Ag-specific CTL. Thus, certain anti-neoplastic agents may display unique immunoregulatory properties that facilitate human colon carcinoma death by engaging the lytic capacity of Ag-specific CTL, which may have implications for chemoimmunotherapy strategies.     

Adoptive immunotherapy of a syngeneic murine leukemia with a tumor-specific cytotoxic T cell clone and recombinant human interleukin 2: correlation with clonal IL 2 receptor expression

The successful adoptive immunotherapy of the syngeneic Friend virus-induced murine leukemia FBL-3 was mediated by a proliferative MHC-restricted, tumor-specific CTL clone in combination with recombinant human IL 2. This clone was previously shown to express the L3T4-, Lyt-1+, Lyt-2+ surface phenotype. Activation of the clone for 48 hr in vitro with irradiated tumor cells induced the expression of IL 2 receptors and markedly increased clonal proliferation in response to recombinant IL 2. Intravenous injection of 2 X 10(7) 48 hr in vitro-activated cloned cells, followed by 6 days of systemic (i.p.) administration of IL 2 resulted in the complete regression of tumors and the cure of 50% of the treated mice. IL 2 alone had no effect on tumor growth, whereas the injection of nonactivated (resting) clone plus IL 2 or activated clone without IL 2 had small but insignificant effects on tumor growth and survival. These results indicated that the in vivo effector functions of cloned T cells may be markedly enhanced by the concurrent systemic administration of recombinant IL 2 and by the induction of optimal IL 2 receptor expression on the cloned T cells at the time of cell administration.     

Characterization of CD8+ cytotoxic T lymphocyte/tumor cell interactions reflecting recognition of an endogenously expressed murine wild-type p53 determinant

p53 mutations are frequently found in human cancers and are often associated with the overexpression of wild-type (WT) protein or peptide sequences, supporting the notion that WT p53 epitopes may serve as potential targets for tumor immunotherapy. We have developed a cytotoxic T lymphocyte (CTL)/p53 tumor-associated antigen (TAA) model, based on immune recognition of a WT p53 determinant. WT p53-peptide-specific, major histocompatibility complex (MHC) classI-restricted CTL were produced from immunocompetent C57BL/6 (H-2b) mice after immunization with a previously defined WT p53 peptide (p53(232-240)) Epitope-specific CTL were then employed to identify syngeneic tumor cell populations expressing that antigenic determinant. Two syngeneic tumor cell lines, MC38 colon carcinoma and MC57G fibrosarcoma, were demonstrated to express the endogenous WT p53(232-240) determinant naturally, as defined by CD8 + CTL recognition. Cold-target inhibition assays confirmed that CTL-mediated lysis was due to immune recognition of the p53(232-240) peptide epitope. The p53(232-240)-specific CTL line did not lyse syngeneic normal cells (i.e., mitogen-activated splenocytes) in the absence of exogenous peptide, suggesting that the WT-p53-specific CTL could distinguish between tumor cells expressing self-TAA and normal host cells. We have demonstrated, for the first time, that the adoptive transfer of WT-p53-specific CTL to mice with established pulmonary metastasis resulted in antitumor activity in vivo. The ability to generate MHC-class-I-restricted CD8- CTL lines specific for a non-mutated p53 determinant from normal, immunocompetent mice, which display antitumor activity both in vitro and in vivo (by adoptive transfer), may have implications for the immunotherapy of certain p53-expressing malignancies.     

Maturation of cytolytic T lymphocytes

We have studied the maturation of cytotoxic T-lymphocytes (CTL) following primary and anamnestic responses in vivo and in vitro. Parameters evaluated included: frequency of effector CTL, specificity of binding to and lysis of target cells, killing and recycling ability of individual CTL, and the avidity of effector-target conjugation. While the frequency of effector CTL in the peritoneal cavity of BALB/c mice immunized against leukemia EL4 of C57BL/6 origin increases from 0 to 35% in 11 days of priming, a paradoxically lower frequency has been observed usually after 2 degrees and repeatedly after 3 degrees immunizations both in the peritoneal cavity and in the spleen. The H-2 haplotype and H-2 sub-loci specificity of CTL is preserved upon repeated immunizations. Likewise, the rate of killing and recycling of individual CTL do not change throughout immunizations, suggesting that the cytolytic activity of individual effector CTL is discrete ("quantal") and not subject to maturation upon repeated immunizations. On the other hand, inhibition of conjugate formation and of lysis by antibodies against target major histocompatibility complex (MHC) or effector Lyt-2 determinants is consistently less effective with 3 degrees CTL, suggesting an increase in avidity of effector/target interaction upon repeated immunizations. A striking increase in apparent avidity has been observed during CTL priming in mixed lymphocyte reaction, as deduced from blocking by target cell MHC antibodies. These results suggest that alloimmune CTL undergo maturation with respect to their ability to interact with the target, and that the composition of the responding population is subject to moderate selective processes driven by repeated antigenic stimuli.     

Cross-presentation of tumor antigens to effector T cells is sufficient to mediate effective immunotherapy of established intracranial tumors

The systemic adoptive transfer of tumor-sensitized T cells, activated ex vivo, can eliminate established intracranial tumors. Regression of MHC class II negative MCA 205 fibrosarcomas occurs optimally following adoptive transfer of both CD4 and CD8 tumor-sensitized T cells, indicating an important function for tumor-infiltrating APC. Here, we demonstrate that during an effector response, indirect presentation of tumor Ags to transferred T cells is sufficient to mediate intracranial tumor regression. BALB/c --> CB6F1 (H-2bxd) bone marrow chimeras were challenged with the MCA 205 fibrosarcoma (H-2b). The tumor grew progressively in the H-2b-tolerant chimeras and stimulated an immune response in tumor-draining lymph nodes. Tumor-sensitized lymph node T cells were activated ex vivo with anti-CD3 and IL-2, then adoptively transferred to sublethally irradiated BALB/c or C57BL/6 recipients bearing established intracranial MCA 205 tumors. The transferred T cells eradicated MCA 205 tumors in BALB/c recipients and demonstrated tumor specificity, but had no therapeutic efficacy in the C57BL/6 recipients. These data establish that tumor-associated host cell constituents provide sufficient Ag presentation to drive effector T cell function in the complete absence of direct tumor recognition. This effector mechanism has an evident capacity to remain operative in circumstances of immune escape, where the tumor does not express the relevant MHC molecules, and may have importance even at times when direct CTL recognition also remains operative.     

Cytokines alter target cell susceptibility to lysis. II. Evaluation of tumor infiltrating lymphocytes

We studied the susceptibility of autologous and allogeneic tumors to lysis by human tumor infiltrating lymphocytes (TIL) after pre-incubation of the tumors with human rIFN-gamma and human rTNF-alpha. Preincubation of the tumor lines with IFN-gamma or TNF enhanced susceptibility to lysis significantly; the combination of both cytokines was more effective than either alone. Pretreatment for at least 24 h was required to enhance lytic susceptibility and maximal lysis was observed after pretreatment for 48 to 72 h. Highly specific TIL lysed only their autologous tumor targets and failed to lyse cytokine pretreated allogeneic tumor cells. In TIL populations with varying specificity, cytokine pretreatment of targets enhanced autologous lysis as well as allogeneic lysis. This cytokine-mediated effect could also be observed in a lectin-dependent cytotoxicity assay and did not correlate directly with enhanced expression of MHC class I Ag or the adhesion molecules LFA-3 and ICAM-1. These results suggest that enhancement of lysis may occur at a postbinding stage by making the target cell more sensitive to the cytotoxic factors delivered by the killer cell. The fact that lysis of cytokine treated targets by cells with LAK activity was not enhanced suggests that cells with lymphokine-activated killer activity and tumor-derived T cells kill tumor targets via different mechanisms.     

Induction of syngeneic cytotoxic T lymphocytes against a B cell tumor. III. MHC class I-restricted CTL recognizes the processed form(s) of idiotype.

The purpose of this work was to determine the molecular nature of the idiotypic Ig of a B cell tumor, 2C3, involved in the induction of anti-idiotypic cytotoxic T-lymphocytes (CTL). We previously reported that hyperimmunization of mice with irradiated 2C3 cells provides effective tumor protection by inducing MHC class I-restricted CTL. Due to the enormous heterogeneity of the splenic CTL further study could not be undertaken on the idiotype (Id)-CTL interaction. Subsequently an anti-idiotypic CTL line, A102, and a highly Id-specific CTL clone, 102.F5, have been developed. In the present investigation we report that the processed forms of idiotypic determinants are responsible for induction and activation of these specific effector CTL. Inhibition studies using anti-TcR and anti-MHC class I mAbs showed that the TcR-CD3 complex of the anti-idiotypic CTL recognized 2C3 Id in the context of MHC class I antigens. The cytotoxicity of these CTL could not be inhibited with affinity-purified 2C3 Ig used as such or after pulsing with splenic antigen-presenting cells (APC). Furthermore, using brefeldin A (BFA) and chloroquine (CLQ), which are specific inhibitors of cytosolic and endosomal antigen processing pathways, respectively, it has also been observed that exposure of 2C3 to BFA but not CLQ prevents its cytolysis by both anti-idiotypic CTL line and clone. These results clearly indicate that endogenously produced idiotypic determinants of 2C3 Ig are processed in pre-Golgi vesicle, possibly in the ER, along with MHC class I antigens and then are transported to the membrane. Treatment of 2C3 with BFA, however, did not exert any effect on the expression of membrane-associated Ig of 2C3 cells. Therefore, it is the processed form rather than the bona fide receptor Ig on the cell surface that is recognized by the Id-specific CTL.