Mixed Lymphocyte-tumor Cultures Research Articles

Human recombinant IL-4 decreases the emergence of non-specific cytolytic cells and favours the appearance of memory cells (CD4+CD45RO+) in the IL-2-driven development of cytotoxic T lymphocytes against autologous ovarian tumour cells.

As IL-4 and IL-6 have also been reported to promote the development of T lymphocytes such as IL-2, we investigated their role in the development of specific cytotoxic T lymphocytes (CTL) against autologous ovarian tumours in mixed lymphocyte tumour cultures (MLTC). Peripheral blood lymphocytes (PBL) from five ovarian carcinoma (OC) patients were incubated with autologous OC cells at a PBL:OC cell ratio of 20:1 in IL-2 alone (50 U/ml for the first week and 200 U/ml thereafter) or with IL-4 (100 U/ml) and/or IL-6 (5 U/ml). Neither IL-4 nor IL-6 improved lymphocyte proliferation consistently. In contrast, IL-4 reduced significantly the development of LAK activity as assayed against Daudi cell line, and decreased modestly the emergence of natural killer (NK) activity as assayed against K562. This property was not shared by IL-6. The prevention of the development of non-specific cytolytic activity (LAK and NK activities) was much stronger when the MLTC was started with IL-4 in the absence of IL-2 during the first week in culture. A concomitant drop in NKH-1 expression (CD56) was observed. By inhibiting the emergence of non-specific cytotoxicity, IL-4 provided better evidence of the specific cytolytic activity directed at ovarian cells. In parallel, a significant increase in the generation of memory cells (CD4+CD45RO+) was observed with IL-4. In conclusion, in this model, IL-4 added before IL-2 decreases significantly the emergence of non-specific cytotoxic cells, and promotes the generation of memory cells. These properties may be of interest in the design of strategies aimed at obtaining tumour-specific cells for investigational and immunotherapeutic purposes.

An Efficient Strategy to Induce and Maintain In Vitro Human T Cells Specific for Autologous Non-Small Cell Lung Carcinoma

BackgroundThe efficient expansion in vitro of cytolytic CD8+ T cells (CTLs) specific for autologous tumors is crucial both for basic and translational aspects of tumor immunology. We investigated strategies to generate CTLs specific for autologous Non-Small Cell Lung Carcinoma (NSCLC), the most frequent tumor in mankind, using circulating lymphocytes.Principal FindingsClassic Mixed Lymphocyte Tumor Cultures with NSCLC cells consistently failed to induce tumor-specific CTLs. Cross-presentation in vitro of irradiated NSCLC cells by autologous dendritic cells, by contrast, induced specific CTL lines from which we obtained a high number of tumor-specific T cell clones (TCCs). The TCCs displayed a limited TCR diversity, suggesting an origin from few tumor-specific T cell precursors, while their TCR molecular fingerprints were detected in the patient's tumor infiltrating lymphocytes, implying a role in the spontaneous anti-tumor response. Grafting NSCLC-specific TCR into primary allogeneic T cells by lentiviral vectors expressing human V-mouse C chimeric TCRα/β chains overcame the growth limits of these TCCs. The resulting, rapidly expanding CD4+ and CD8+ T cell lines stably expressed the grafted chimeric TCR and specifically recognized the original NSCLC.ConclusionsThis study defines a strategy to efficiently induce and propagate in vitro T cells specific for NSCLC starting from autologous peripheral blood lymphocytes.

Effects of interferon-gamma and tumour necrosis factor-alpha on the development of cytotoxic T lymphocytes in autologous mixed lymphocyte tumour cultures with human melanoma

We have studied the influence of tumour necrosis factor-alpha (TNF-alpha) and interferon-gamma (IFN-gamma) on the development of cytotoxic T lymphocytes (CTL) against melanoma in mixed lymphocyte tumour cultures (MLTC). In these MLTC, TNF-alpha at 10(4) U/ml increased the expansion of the CTL up to 10(4)-fold over recombinant IL-2 (rIL-2) alone. IFN-gamma at 10(4) U/ml and combinations of TNF-alpha plus IFN-gamma at 10(2)-10(3) U/ml promoted the proliferation more variably. MLTC generated with rIL-2 showed a predominance of CD8+ cells, while 2 weeks of culture in the presence of IFN-gamma at 10(4) U/ml, or with IFN-gamma and TNF alpha at 1 x 10(2)-10(3) U/ml, favoured the emergence of CD4+ cell populations. The cytotoxic activity of the lymphocytes generated in these MLTC showed a consistent decline of K562 cytotoxic activity following exposure to the combination of IFN-gamma and TNF-alpha. Despite the altered T cell subset distribution with different combinations of cytokines, no consistent alteration in the specific anti-tumour cytotoxicity against melanoma was detected. These results suggest that TNF-alpha and IFN-gamma influence the activation, phenotypic, and functional outcome of MLTC-generated CTL, and may account for the phenotypic variations observed in T cell populations generated in vitro.

Tumor‐reactive CD8+ T‐cell clones in patients after NY‐ESO‐1 peptide vaccination

A major objective of peptide vaccination is the induction of tumor-reactive CD8+ T-cells. We have shown that HLA-A2 positive cancer patients frequently develop an antigen-specific CD8+ T-cell response after vaccination with NY-ESO-1 peptides p157-165/p157-167. These T-cells are highly reactive with the peptides used for vaccination, but only rarely recognize HLA-matched, NY-ESO-1 expressing tumor cell lines. To address the apparent lack of tumor recognition of vaccine-induced CD8+ T-cell responses, we used autologous tumor cells for in vitro stimulation and expansion of pre- and postvaccine CD8+ T-cells. In contrast to standard presensitization methods with peptide-pulsed antigen-presenting cells, mixed lymphocyte tumor culture favored the selective expansion of low-frequency tumor-reactive T-cells. In four patients, we were able to demonstrate that antigen-specific and tumor-reactive T-cells are detectable and are indeed elicited as a result of NY-ESO-1 peptide vaccination. Further analyses of postvaccine antigen-specific T-cells at a clonal level show that vaccine-induced antigen-specific T-cells are heterogeneous in functional activity. These results suggest that the methods of immunomonitoring are critical to identify the proportion of tumor-reactive T-cells within the population of vaccine-induced antigen-specific effector cells. Our results show that immunization with NY-ESO-1 peptides leads to strong tumor-reactive CD8+ T-cell responses. Our findings suggest that approaches to peptide vaccination may be improved to induce higher numbers of antigen-specific T-cells and to selectively increase the proportion of CD8+ T-cells that have the capacity to recognize and eliminate tumor cells.

In vitro co-stimulation of anti-tumor activity by soluble B7 molecules.

In order to investigate the anti-tumor activity of a soluble B7-1/immunoglobulin G fusion protein and explore an effective method to eliminate immune escape of tumor cells, a recombinant vector encoding this fusion protein was constructed and constitutively expressed in Chinese hamster ovary cells. After purification with protein G affinity chromatography, the soluble fusion protein was tested for bioactivity. Results showed that the fusion protein could significantly increase the density of B7-1 molecules on WEHI-3 cells, a mouse leukemia cell line. Through allogeneic mixed lymphocyte tumor cultures, it was demonstrated that, with the presence of the first signal, it could also significantly enhance T cell activation and killing activity against WEHI-3 cells and interleukin-2 secretion by activated mouse T lymphocytes. The conclusion can be drawn that the soluble B7-IgG fusion protein has a potent capacity to generate or enhance anti-tumor immune response in vitro, and its clinical value deserves further investigation.

Immunogenicity without Immunoselection: A Mutant but Functional Antioxidant Enzyme Retained in a Human Metastatic Melanoma and Targeted by CD8+ T Cells with a Memory Phenotype

Human melanomas can express unique tumor antigens, resulting from mutated proteins, and shared epitopes encoded for by normal genes, but these two classes of antigens have not been previously compared for immunogenicity and retention in metastatic cells. Here, we identified a new unique antigen generated by a point mutation in the peroxiredoxin 5 (Prdx5) gene in an HLA-A*0201(+) human metastatic melanoma lacking the wild-type allele. An antioxidant assay, with recombinant Prdx5 proteins, and evaluation of peroxide accumulation in transiently transfected cells, indicated that the mutant protein retained its enzymatic activity. The mutation in the Prdx5 protein did not generate a new HLA agretope but yielded an HLA-A*0201-restricted T cell epitope (Prdx5(110-119)). By HLA-tetramer analysis, in a tumor-invaded lymph node, >50% of mutant Prdx5-specific CD8(+) T cells (frequency 0.37%/CD8(+)) showed a CCR7(+/-) CD45RA(-) "T(CM)" or "T(EM)" phenotype, as found in Melan-A/MART-1-specific T cells (frequency 0.68%/CD8(+)) in the same tissue. In agreement with their memory phenotype, the Prdx5-specific T cells readily expanded in vitro in mixed lymphocyte-tumor culture, as did the Melan-/MART-1-specific T cells. By immunohistochemistry of the invaded lymph node, the mutant Prdx5 protein was expressed in all neoplastic cells, in contrast with the heterogeneous expression of shared antigens as Melan-A/MART-1, gp100 and tyrosinase. Thus, a unique tumor antigen can be as immunogenic as the melanoma differentiation antigens but, in contrast to the latter, may be retained in all metastatic cells possibly as result of the relevant cellular function exerted by the mutated protein.

Enhancement of T cell proliferative response against autologous cancer cells of a metasatic renal cell carcinoma patient after unexplained regression

The unexplained regression of a metastasis of renal cell carcinoma (RCC) is rare phenomenon. While an immune mechanism has been proposed for spontaneous or unexplained regression of RCC, only limited data are available regarding immunological response. We report a case of a 62-year-old man with RCC whose paravertebral pleural tumor regressed after the withdrawal of interferon-alpha. In the present case, we demonstrate the enhancement of T cell proliferative response against autologous RCC cells secondary to the unexplained regression using the mixed-lymphocyte tumor culture. To our knowledge, the enhancement of an antitumor immunity secondary to an unexplained regression of RCC has not previously been reported.

Adoptive immunotherapy of cancer using activated autologous lymphocytes--current status and new strategies.

After the discovery of interleukin-2 (IL-2), lymphokine-activated killer (LAK) cells, tumor-infiltrating lymphocytes (TILs), and cytotoxic T lymphocytes (CTLs) sensitized with the mixed lymphocyte-tumor culture (MLTC) system have been conducted in adoptive immunotherapy (AIT) trials during past 15 years. Although the overall response rate of tumor shrinkage was marginal (9%), locoregional administration of TILs for malignant effusions was effective (77%) for a decrease or disappearance of the effusions even in terminally-ill patients, resulting in an improvement of QOL. Recent advances for molecular understanding of antigen presentation and recognition have promoted us to enhance the efficacy of AIT by using cultured dendritic cells (DCs) for generating antigen-specific CTLs in vitro. The peptide-pulsed DC-activated killer (PDAK) cells showed tumor recognition against antigen-expressing cells, and were efficiently propagated with the IL2 plus immobilized anti-CD3 antibody (IL-2/CD3) culture system. Clinical trials using PDAK cells against patients with lung metastases are now progressed, in which peptides suitable for generating CTLs were chosen in individual patients using the method designated as host-oriented peptide evaluation (HPOE) approach. Moreover, DCs were introduced with tumor-derived RNA, which was amplified with the T7 promoter system, and then were used for stimulating lymphocytes. The tumor RNA-introduced DC-activated killer (TRiDAK) cells showed tumor-specific interferon-gamma spots even in a patient in whom we failed to generate PDAK cells using DCs and peptides, suggesting that the clinical trial of AIT using TRiDAK cells is warranted for the treatment of patients with metastatic cancer. Thus, more understanding of antigen-presentation and -recognition mechanisms and immune regulation systems may promote clinical applications of AIT to establish a novel modality of cancer treatment.

CS-1, a novel c-kithi+ acute myeloid leukemia cell line with dendritic cell differentiation capacity and absent immunogenicity.

Complex cytogenetic abnormalities confer dismal prognoses in myeloid malignancies. Even bone marrow transplantation from siblings or matched unrelated donors offer minimal chances for cure, suggesting that these cases are not only refractory to chemotherapy but also resist the graft-vs.-leukemia effect. We herein describe the first permanent, factor-independent c-kit(hi+) cell line CS-1 derived from an unrelated donor stem cell transplanted patient with relapsed acute myeloid leukemia (AML)-M5a of high-risk karyotype [monosomy 7, t(2;11)(q31;p13), t(10;12)(q24;q24)]. Having the same karyotype, CS-1 exhibits an autonomous growth pattern and responds to stem cell factor (SCF). CS-1 did not induce T cell activation in mixed-lymphocyte-tumor-cultures (MLTCs) and, when used as third party stimulators, decreased T cell proliferation in mixed-lymphocyte reactions (MLRs). Cytokines added exogenously or secreted from bystander T cells caused CS-1 to differentiate into dendritic cells (DCs). CS-1-derived DCs, in contrast to DCs originating from non-malignant CD34(+) progenitor cells, had virtually no T cell stimulatory effect, indicating that CS-1 is both immunosuppressive and poorly immunogenic. These properties may partially be due to the detected downregulation of costimulatory molecules and appear to involve a soluble factor. CS-1 cells injected subcutaneously (s.c.) to non-obese diabetes/severe combined immunodeficient (NOD/SCID) mice produced solid tumors, disseminating into bone marrow and spleen. The data show that transforming AML blasts with high-risk karyotype into DCs is insufficient to restore their immunogenicity and that the CS-1 cell line is useful to identify tumor-related immunosuppressive mechanisms in vitro and in vivo.

Tumor-specific CTL kill murine renal cancer cells using both perforin and Fas ligand-mediated lysis in vitro, but cause tumor regression in vivo in the absence of perforin.

Kidney cancer is a devastating disease; however, biological therapies have achieved some limited success. The murine renal cancer Renca has been used as a model for developing new preclinical approaches to the treatment of renal cell carcinoma. Successful cytokine-based approaches require CD8(+) T cells, but the exact mechanisms by which T cells mediate therapeutic benefit have not been completely identified. After successful biological therapy of Renca in BALB/c mice, we generated CTLs in vitro using mixed lymphocyte tumor cultures. These CTL mediated tumor-specific H-2K(d)-restricted lysis and production of IFN-gamma, TNF-alpha, and Fas ligand (FasL) in response to Renca. CTL used both granule- and FasL-mediated mechanisms to lyse Renca, although granule-mediated killing was the predominant lytic mechanism in vitro. The cytokines IFN-gamma and TNF-alpha increased the sensitivity of Renca cells to CTL lysis by both granule- and FasL-mediated death pathways. Adoptive transfer of these anti-Renca CTL into tumor-bearing mice cured most mice of established experimental pulmonary metastases, and successfully treated mice were immune to tumor rechallenge. Interestingly, we were able to establish Renca-specific CTL from mice gene targeted for perforin (pfp(-/-)) mice. Although these pfp(-/-) CTL showed reduced cytotoxic activity against Renca, their IFN-gamma production in the presence of Renca targets was equivalent to that of wild-type CTL, and adoptive transfer of pfp(-/-) CTL was as efficient as wild-type CTL in causing regression of established Renca pulmonary metastases. Therefore, although granule-mediated killing is of paramount importance for CTL-mediated lysis in vitro, some major in vivo effector mechanisms clearly are independent of perforin.

Analysis of immune response to tumor specific antigen restricted to HLA class II on renal cell carcinoma and its recognition mechanism

In this study, we studied the immune response against to human renal cell carcinoma and its antigensity. Mixed lymphocyte tumor culture test was performed using tumor cells as stimulator cells, peripheral blood lymphocytes from tumor patient (autologous) or healthy volunteer (allogeneic) as responder cells, and tumor cells or peripheral blood lymphocytes from tumor patient as target cells. The cytotoxic activity of mixed lymphocyte tumor culture test was assayed by 51Cr-relase test, and cell surface antigens presented on tumor cells or peripheral blood lymphocytes were assayed by antibody block test. The cytotoxic activity against to tumor cells was induced from allogeneic peripheral blood lymphocytes by mixed lymphocyte tumor culture test. Its cytotoxic activity was inhibited by anti-CD8 antibody treatment of peripheral blood lymphocytes and anti-HLA class II antibody treatment of tumor cells. Furthermore, allogeneic peripheral blood lymphocytes induced to tumor cells did not damage peripheral blood lymphocyte of the tumor patient derivation. Renal cell carcinoma may express tumor specific antigen restricted to HLA class II antigens that could be recognized by allogeneic CD8 positive T lymphocytes.

Interferon-alpha (IFN-alpha) stimulates anti-melanoma cytotoxic T lymphocyte (CTL) generation in mixed lymphocyte tumour cultures (MLTC).

IFN-alpha administration after primary tumour resection improves the survival of melanoma patients at high risk of relapse. To investigate whether this response might be due to stimulation of anti-tumour immunity, the effect of IFN-alpha on anti-melanoma CTL generation in MLTC was measured. IFN-alpha increased both allogeneic and autologous anti-melanoma CTL generation from peripheral blood lymphocytes stimulated with irradiated primary melanoma cultures. IFN-alpha up-regulated MHC class I expression on primary melanoma cultures, whereas IFN-gamma up-regulated both MHC class I and II expression. However, the effect of IFN-alpha on anti-melanoma CTL generation was often more potent than that of IFN-gamma, equalling the effect of the optimal combination of IL-2 and IL-12. Pre-treatment of primary melanoma cultures with IFN-gamma was sufficient for CTL generation in MLTC, whereas IFN-alpha needed to be present during the MLTC. While direct anti-proliferative effects of IFN-alpha on some tumour cells have been described, IFN-alpha did not inhibit proliferation of primary melanoma cultures. These results suggest that the clinical effects of IFN-alpha in melanoma patients may be immune-mediated.

Melanoma-Reactive CD8+ T cells recognize a novel tumor antigen expressed in a wide variety of tumor types.

An autologous melanoma cell line selected for loss of expression of the immunodominant MART-1 and gp100 antigens was initially used to carry out a mixed lymphocyte tumor culture (MLTC) in a patient who expressed the human leukocyte antigen (HLA)-AI and HLA-A2 class I major histocompatibility complex alleles. Ten clones identified from this MLTC seemed to recognize melanoma in an HLA-A1-restricted manner but failed to recognize a panel of previously described melanoma antigens. The screening of an autologous melanoma cDNA library with one HLA-Al-restricted melanoma-reactive T-cell clone resulted in the isolation of a cDNA clone called AIM-2 (antigen isolated from immunoselected melanoma-2). The AIM-2 transcript seemed to have retained an intronic sequence based on its alignment with genomic sequences as well as expressed sequence tags. This transcript was not readily detected after Northern blot analysis of melanoma mRNA, indicating that only low levels of this product may be expressed in tumor cells. Quantitative reverse transcriptase-polymerase chain reaction analysis, however, demonstrated a correlation between T-cell recognition and expression in HLA-A1-expressing tumor cell lines. A peptide that was encoded within a short open reading frame of 23 amino acids and conformed to the HLA-A1 binding motif RSDSGQQARY was found to represent the T-cell epitope. The AIM-2-reactive T-cell clone recognized a number of neuroectodermal tumors as well as breast, ovarian, and colon carcinomas that expressed HLA-A1, indicating that this represents a widely expressed tumor antigen. Thus, AIM-2 may represent a potential target for the development of vaccines in patients bearing tumors of a variety of histologies.

Synergy between interleukin-2 and prothymosin alpha for the increased generation of cytotoxic T lymphocytes against autologous human carcinomas.

Peripheral blood mononuclear cells (PBMC) from cancer patients were cultured in vitro with irradiated autologous tumor cells isolated from malignant effusions (mixed lymphocyte tumor cultures, MLTC) and low-dose (50 IU/ml) recombinant interleukin-2 (IL-2). The combination of IL-2 and prothymosin alpha (ProTalpha) resulted in a greater PBMC-induced response to the autologous tumor than that brought about by IL-2 alone. In particular, ProTalpha specifically enhanced the CD4+ T-cell-mediated proliferation against the autologous tumor. CD4+ T cells seemed to recognize tumor antigens presented by HLA-DR molecules expressed on the autologous monocytes, since preincubation of the latter with an anti-HLA-DR monoclonal antibody (mAb) abrogated the response. In addition, MLTC set up with IL-2 and ProTalpha also generated more MHC-class-I-restricted cytotoxic T lymphocytes (CTL) against the autologous tumor than did MLTC set up with IL-2 alone. The MLTC-induced CTL contained high levels of cytoplasmic perforin and their development was strictly dependent on the presence of both autologous CD4+ T cells and monocytes. In the absence of either population there was a strong impairment of both proliferative and cytotoxic responses which was not restored by the presence of ProTalpha. In contrast, when both cell populations were present, ProTalpha exerted optimal enhancement of CD4+ T cell proliferation, which was associated with potentiated CTL responses. Our data emphasize the role of ProTalpha for the enhancement of IL-2-induced CTL responses against autologous tumor cells. Such responses require collaborative interactions between CD4+, CD8+ T cells and monocytes as antigen-presenting cells. Our data are relevant for adoptive immunotherapeutic settings utilizing IL-2 and ProTalpha-induced autologous-tumor-specific CTL.

B7.1 on Human Carcinomas: Costimulation of T Cells and Enhanced Tumor-Induced T-Cell Death

Human squamous cell carcinomas of the head and neck (SCCHN) do not express the costimulatory molecules B7.1 or B7.2 in situ or in culture. Transduction of B7.1− SCCHN cells with the retroviral B7.1 and neor genes resulted in the expression of high levels of the transgene in these tumor cells. When B7.1+ SCCHN cells were used as stimulators of autologous or allogeneic PBL in mixed lymphocyte–tumor cultures (MLTC), T-cell proliferation and generation of antitumor effector T cells as well as levels of their lytic activity were significantly increased. At the same time, a proportion of activated T cells seen to undergo apoptosis was found to be significantly higher upon coincubation with B7.1+ SCCHN than with B7.1− SCCHN. Both B7.1+ and B7.1− SCCHN cells were found to express FasL on the cell surface and in the cytoplasm, as well as mRNA for FasL and mRNA for TRAIL. However, expression of the B7.1 transgene did not lead to increased expression of FasL protein on tumor cells. Yet, up to 50% of activated CD28+ allogeneic T cells, which were CD95+, showed evidence of DNA fragmentation in JAM and TUNEL assays upon incubation with an excess of B7.1+ SCCHN for 24 h. Tumor-induced T-cell death was equally and only in part blocked by anti-Fas antibodies in both B7.1+ and B7.1− MLTC. While surface expression of B7.1 molecules on SCCHN cells enhanced T-cell costimulation via B7.1-CD28 interactions, it did not rescue activated T cells from tumor-induced apoptosis. The outcome of MLTC under these conditions was dependent on the ratio of tumor to T cells. Thus, in the presence of an excess of B7.1+ tumor cells, activated T cells showed increased sensitivity to apoptosis which did not appear to be Fas/FasL mediated. These data are important for the development of B7.1 gene therapy and efforts directed at the generation of effector cells in MLTC.

Tumor-specific CD4+ T lymphocytes from cancer patients are required for optimal induction of cytotoxic T cells against the autologous tumor.

This study focuses on the specific CD4+ T cell requirement for optimal induction of cytotoxicity against MHC class II negative autologous tumors (AuTu) collected from patients with various types of cancer at advanced stages. CD4+ T cells were induced in cultures of cancer patients' malignant effusion-associated mononuclear cells with irradiated AuTu (mixed lymphocyte tumor cultures (MLTC)) in the presence of recombinant IL-2 and recombinant IL-7. Tumor-specific CD4+ T cells did not directly recognize the AuTu cells, but there was an MHC class II-restricted cross-priming by autologous dendritic cells (DCs), used as APC. CD8+ CTL, also induced during the MLTC, lysed specifically AuTu cells or DCs pulsed with AuTu peptide extracts (acid wash extracts (AWE)) in an MHC class I-restricted manner. Removal of CD4+ T cells or DCs from the MLTC drastically reduced the CD8+ CTL-mediated cytotoxic response against the AuTu. AWE-pulsed DCs preincubated with autologous CD4+ T cells were able, in the absence of CD4+ T cells, to stimulate CD8+ T cells to lyse autologous tumor targets. Such activated CD8+ T cells produced IL-2, IFN-gamma, TNF-alpha, and GM-CSF. The process of the activation of AWE-pulsed DCs by CD4+ T cells could be inhibited with anti-CD40 ligand mAb. Moreover, the role of CD4+ T cells in activating AWE-pulsed DCs was undertaken by anti-CD40 mAb. Our data demonstrate for the first time in patients with metastatic cancer the essential role of CD4+ Th cell-activated DCs for optimal CD8+ T cell-mediated killing of autologous tumors and provide the basis for the design of novel protocols in cellular adoptive immunotherapy of cancer, utilizing synthetic peptides capable of inducing T cell help in vivo.

Innate and adaptive immunity to tumors: IL-12 is required for optimal responses.

We have investigated the importance of endogenously produced IL-12 in innate and adaptive immunity to tumor transplants. The immunogenic lymphoma RMA and its TAP-deficient variant RMA-S were tested for rejection responses by normal and IL-12-deficient mice. IL-12 was crucial for the immunity induced by one immunization with irradiated RMA cells, as well as for in vivo priming of a CTL response in mixed lymphocyte tumor cultures against this MHC class I-expressing tumor. The defective in vivo response could be overcome by multiple immunizations. In further studies of in vitro CTL responses, we found that IL-12 production from either the antigen-pulsed dendritic cells or from host cells was necessary to obtain strong CTL responses. In the complete absence of IL-12, no or only very weak responses could be detected. NK cell-mediated innate resistance, as assessed in non-immunized mice inoculated with a threshold dose of RMA-S cells, also required IL-12. However, NK cells with reduced activity were present in IL-12-deficient mice and contributed to innate resistance, as demonstrated with lower cell dose challenges. In conclusion, IL-12 is required for optimal adaptive and innate responses against tumors.

Interleukin-2 gene-transduced human leukemic cells induce major histocompatibility complex-restricted and -unrestricted anti-leukemic effectors in mixed lymphocyte-tumor cultures.

To explore the feasibility of designing vaccination protocols in acute leukemia patients with cytokine gene-transduced leukemic cells, we studied in vitro the growth potential of human leukemic cells transduced with the interleukin-2 (IL-2), IL-7, or IL-7 plus IL-2 genes, as well as the capacity of generating both autologous and allogeneic cytotoxic lymphocytes directed against the parental cells. A lymphoblastic T-cell line, ST4, obtained from a patient in long-lasting complete remission, was retrovirally engineered with the IL-2, IL-7, and IL-7 plus IL-2 genes; in addition, clones releasing different amounts of the cytokines were obtained by limiting dilution. Mixed lymphocyte-tumor cultures (MLTCs) were set up with parental or transduced leukemic cells as stimulators and with autologous or allogeneic lymphocytes as responders. When nonirradiated ST4 parental cells or clones producing <50 international units (IU)/mL/10(6) cells/72 hours of IL-2 were used as stimulators, leukemic overgrowth was observed in MLTCs within 16 days of culture. When clones producing >80 IU/mL/10(6) cells/72 hours of IL-2 were used as stimulators, the proliferation of leukemic cells was blocked and the transduced leukemic cells were completely cleared from the cultures by day 16; repeated restimulations with IL-2-producing leukemic cells were required to sustain long-term lymphocyte survival. On the contrary, when IL-7- or IL-7-IL-2-producing cells were used as stimulators, only a delay in leukemic cell overgrowth was observed, and lymphocytes were completely cleared from the cultures after day 60. IL-7 production by the different clones ranged between 11 and 36 ng/mL/10(6) cells/72 hours, whereas the highest IL-2-producing IL-7-IL-2 clone released 50 IU/mL/10(6) cells/72 hours of IL-2. When the stimulator efficacy of the highest IL-2-producing clone (ST4/IL-2#A7) was compared with that of exogenous IL-2 plus parental cells, a 7-fold higher amount of exogenous IL-2 was required to achieve the same results obtained with IL-2-producing leukemic cells. Autologous and allogeneic long-term MLTCs (up to 35 days) with ST4/IL-2#A7 as the stimulator were capable of generating cytotoxic effectors equally endowed with both major histocompatibility complex (MHC) class I-unrestricted and -restricted activity against parental ST4 cells. By day 18 of both autologous and allogeneic cultures, a substantial proportion of CD56+ cells was consistently recorded; this was coupled to a predominantly MHC-unrestricted cytotoxic activity directed against parental ST4 cells. CD56+ cells decreased considerably at the end of the different MLTCs, together with the unrestricted cytotoxic activity. At this time, >50% of the cells were CD8+, and 55% of the activity could be blocked by an anti-MHC class I monoclonal antibody. The results of this study demonstrate that IL-2 gene-transduced human acute leukemia cells cocultured with both autologous and allogeneic lymphocytes are capable of inducing a strong MHC-unrestricted anti-leukemic activity and subsequently "educating" MHC class I-restricted anti-leukemic effectors. The evidence that the immunogenic potential of human leukemic blasts can be boosted after transfer of the IL-2 gene suggests that the possibility of using leukemic cells engineered to release IL-2 as a therapeutic vaccine needs to be explored further.

Gene transfer of a secretable form of IL-15 in murine adenocarcinoma cells: Effects on tumorigenicity, metastatic potential and immune response

IL-15 is an immunostimulatory cytokine with IL-2-like activities. To exploit the potential role of IL-15 in cancer immuno-/gene therapy, we engineered murine TS/A cells with different IL-15 cDNA constructs. Significant IL-15 secretion was achieved only by the use of a modified cDNA encoding for an IL-15 pre-protein bearing the IgK light chain signal peptide. Different TS/A clones (TS/A IL-15 C6, C23, C29) producing 390 to 1,600 pg/ml biologically active IL-15 showed reduced tumorigenicity when implanted s.c. in syngeneic mice and significantly reduced metastatic potential by i.v. injection. Tumorigenicity of s.c. TS/A IL-15 was restored in animals depleted of CD8(+) lymphocytes or of natural killer cells and partially in CD4(+)-depleted mice. TS/A IL-15 cells displayed a significantly reduced growth rate by s.c. implant in nude mice. Also, >50% syngeneic animals rejecting TS/A IL-15 were resistant to a subsequent rechallenge with wild-type tumor (TS/Apc), indicating induction of protective immunity against TS/A tumor-associated antigens (TAAs). Cytolytic T lymphocyte (CTL) activity, specifically inhibited by anti-CD3 antibodies, was inducible in the splenocytes of TS/A IL-15-immunized animals by mixed lymphocyte/tumor culture (MLTC), and IFN-gamma was released in the supernatant of MLTC, mainly by CD8(+) cells. Immunohistochemistry of the TS/A IL-15 tumor area revealed the presence of an inflammatory infiltrate with predominant natural killer, macrophage, and granulocyte components and expression of IFN-gamma as a distinctive secondary cytokine. Use of TS/A IL-15 mitomycin-treated cells for therapeutic vaccination in experimental TS/A metastasis was effective in 60% of animals treated; these animals showed no metastatic tumor growth.

High frequency of T cell clonal expansions in primary human melanoma. Involvement of a dominant clonotype in autologous tumor recognition.

It was previously found that primary melenomas from HLA-A2-matched patients display an increased expression of a few T cell receptor (TCR) variable-region beta-chain transcripts (BV) compared with autologous peripheral blood lymphocytes (PBL) and uninvolved skin. In order to see whether expansions of clonal/oligoclonal subsets of T cells occurred, complementarity-determining region 3 (CDR3) of BV transcripts overexpressed in the neoplastic infiltrate were cloned and sequenced. Dominant rearrangements were found for BV14, which were commonly increased in the neoplastic lesions of all analysed HLA-A2 melanoma patients, as well as for other overexpressed BV gene families, but none of them could be identified among autologous PBL. No identical CDR3 sequences could be detected in the dominant BV14 rearrangements obtained from the different patients. In one patient a single clonally expanded SLSGTGVNEQF CDR3 clonotype accounted for the entire BV14 relative frequency of expression (24%) in tumor-infiltrating lymphocytes (TIL). Two independent mixed lymphocyte/tumor cultures (MLTC) could be successfully established from TIL of the patient and were found to exert HLA-class-I-restricted cytotoxicity for the autologous melanoma line. BV14 T cells that constituted from 22% to 32% of all T cells present in both MLTC lines, as assessed by flow cytometry, all displayed the same CDR3 clonotype found in vivo and could be shown, by TCR down-modulation experiments, to be involved in autologous tumor recognition. These results support the hypothesis of a tumor-antigen-driven origin of clonally amplified T cells present at high frequency in the in situ neoplastic infiltrate.