The melanoma antigen Melan-A/MART-1 was screened for the presence of potential HLA-A*0201-binding cytotoxic T lymphocytes (CTL) epitopes. The immunodominant nonamer epitope AAGIGILTV demonstrated weak binding to T2 but a significant half-life of binding to HLA-A*0201 in contrast to the decamer EAAGIGILTV. In addition to the immunodominant CTL epitope, we describe two peptides, GILTVILGV and ALMDKSLHV, that display stable binding to HLA-A*0201. Using cultured autologous dendritic cells pulsed with these peptides, CTL lines were induced from peripheral blood lymphocytes that displayed reactivity with HLA-A2+, Melan-A/MART-1+ melanoma cells. CTL reactivity against the immunodominant epitope could be induced with the nonamer epitope alone, but not with the decamer variant. CTL clones generated from an (EAAGIGILTV + AAGIGILTV)-induced CTL line recognize the appropriate melanoma cells and normal melanocytes. Upon further characterization of one of these CTL clones, it was found to be of surprisingly high affinity considering that it is directed against a self antigen. This study demonstrates that immunogenic peptides can be selected based on stability (half-life) of peptide/HLA binding. In addition, cultured DC were found to efficiently induce CTL responses in vitro against such selected peptides, and some of these CTL were capable of recognizing endogenously processed antigen.
Tumor Ag NY-ESO-1 is an attractive target for immunotherapy of cancer, since both CD8+ CTL and CD4+ Th cells against NY-ESO-1 have been described. Moreover, NY-ESO-1 as well as the highly homologous tumor Ag LAGE-1 are broadly expressed in various tumor types. Interestingly, the NY-ESO-1 and LAGE-1 genes also encode for proteins translated in an alternative open reading frame. These alternatively translated NY-ESO-ORF2 and CAMEL proteins, derived from the NY-ESO-1 and LAGE-1 genes, respectively, have been demonstrated to be immunogenic, since CTL specific for these proteins have been isolated from melanoma patients. In this study a panel of advanced melanoma patients was screened for the presence of Th cells specific for the alternatively translated tumor Ags NY-ESO-ORF2 and CAMEL. PBMC of melanoma patients were stimulated for 4 days with mixes of overlapping peptides covering the entire NY-ESO-ORF2 and CAMEL protein sequences and were tested for the release of type 1 (IFN-γ) and type 2 (IL-13) cytokines in ELISPOT assays. In three of 15 patients, T cells specific for two CAMEL peptides (CAMEL71–92 and CAMEL81–102) could be detected. From one of these patients, CD4+ T cell clones specific for CAMEL81–102 could be generated. These clones recognized a naturally processed epitope presented in both HLA-DR11 and HLA-DR12 and produced high levels of IL-4, IL-5, and IL-13. In conclusion, this study shows the presence of Th cells specific for the alternatively translated tumor Ag CAMEL in melanoma patients and is the first report that describes the isolation of tumor Ag-specific CD4+ Th 2 clones.
Background: Adoptive cell therapy (ACT) with tumor-reactive T cells has shown consistent clinical efficacy. We evaluated the response to ACT in combination with interferon alpha (IFNa) preconditioning in stage IV metastatic melanoma patients, most of which were progressive on CTLA-4 and/or PD-1 checkpoint blockade therapy. Methods: Thirty-four patients were treated with ex vivo expanded tumor reactive T cells, derived from mixed-lymphocyte-autologous tumor cultures, or with autologous tumor-infiltrating lymphocytes and evaluated for clinical response. Clinical and immunological parameters associated with response were also evaluated. Results: Best overall response defined as clinical benefit, comprising either complete response, partial response or stable disease for more than 6 months, was observed in 29% of the patients. Six of the 14 (43%) immunotherapy naïve patients and 4 of the 20 (20%) patients progressive on prior immunotherapy benefited from ACT. The overall survival (OS) was 90% versus 28.6% at 1 year and 46.7% versus 0% at 3 years follow-up, of clinical responder and non-responder patients, respectively. Median OS was 36 versus 7 months, respectively. IFNa pre-treatment resulted in leuko-, neutro- and lymphopenia, which was sustained during the treatment in clinical responders and associated with response. Differences in antigen-specificity, but not in phenotype, cytokine profile, or CD8+ T cell number of the ACT products correlated with clinical response. Cross-reactivity of the ACT products to one or more allogeneic HLA-matched melanoma cell lines was associated with short OS after treatment while the ACT products of very long-term survivors showed solely recognition of patient-specific neo-antigens. Conclusion: This study demonstrates that ACT in combination with a mild IFNa preconditioning regimen can induce clinical benefit even in immunotherapy pre-treated patients, albeit with lower success than in immunotherapy naïve patients. ACT products comprising neo-antigen reactivity may be more effective. Future Perspectives: As a substantial percentage of the infused T cells expressed one or more inhibitory checkpoint molecules (CTLA-4, PD-1, or TIM-3), we started a new trial combining ACT and anti-PD-1 (ACTME trial; NCT03638375). The phase Ia of this trial was just completed with nine immunotherapy pre-treated patients showing that the combined treatment is feasible and safe. Updated and accumulated disease response data will be presented. Citation Format: Monique K. van der Kooij, Els M. Verdegaal, Marten Visser, Carolien E. van der Minne, Linda de Bruin, Pauline Meij, Anton G. Terwisscha van Scheltinga, Marij J. Welters, Saskia J. Santegoets, Noel F. de Miranda, Inge C. Roozen, Gerrit-Jan Liefers, Ellen Kapiteijn, Sjoerd H. van der Burg. Low-dose Interferon-alpha pre-conditioning and adoptive cell therapy in metastatic melanoma patients refractory to standard (immune) therapies - a phase 1/2 study [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr CT194.
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