Abstract 3168: Immunopeptidome-defined acute myeloid leukemia progenitor cell-associated antigens are targeted in vivo by AML patients’ T cells

Abstract Despite recent advances and the approval of novel molecular therapies in acute myeloid leukemia (AML), the disease is still characterized by high relapse rates and poor overall survival due to the persistence of therapy-resistant residual leukemic progenitor cells (LPCs). T cell-based immunotherapy has been suggested as a novel therapeutic option to eliminate minimal residual disease and achieve long-lasting remissions. One main prerequisite for immunotherapy development is the selection of immunogenic targets that show natural, high-frequent, and tumor-exclusive presentation on the cell surface of malignant cells. In a previous study we characterized the antigenic landscape of AML by mass spectrometry to identify AML-specific T cell epitopes (Berlin et al. Leukemia 2015). Here, we aimed to analyze the immunopeptidome of primary AML progenitor cells (n = 10, purity >80% CD34+CD38-) to identify LPC-associated antigens that enable the specific targeting of AML LPCs. Additionally, we analyzed an extended set of AML patient samples (n = 47) to screen for naturally presented neoepitopes and to identify broadly applicable AML-associated target antigens that are presented on both AML blasts and LPCs. We identified more than 16,000 HLA class I- and 17,000 HLA class II-presented peptides on LPCs and 72,000 HLA class I and 61,000 HLA class II peptides in the total AML cohort. Comparative profiling of LPCs, AML blasts, and a benign tissue database (n = 332) revealed HLA class I- and HLA class II-presented LPC-exclusive as well as frequently presented AML-associated antigens on both AML blasts and LPCs. Besides these tumor-exclusive self-peptides, we detected naturally presented neoepitopes derived from two frequent mutations (NPM1 and IDH2) in this low-mutational burden malignancy. For immunogenicity analyses we selected 16 HLA class I- and 15 HLA class II-restricted peptides comprising unmutated as well as mutation-derived antigens. In vitro priming experiments showed the induction of peptide-specific, multi-functional, and cytotoxic CD8+ effector cells in samples of healthy volunteers and AML patients. We were able to detect strong preexisting memory T cell responses targeting LPC-associated antigens in AML patients with detection frequencies of up to 20%. Retrospective analyses revealed that patients with preexisting peptide-specific T cell responses showed improved overall survival compared to patients without any memory responses against our targets. Taken together, we identified novel, naturally presented, LPC-exclusive, and AML-associated self-antigens and neoepitopes presented on both AML blasts and LPCs. We could demonstrate the immunogenicity of 14/16 (88%) HLA class I and 13/15 (87%) HLA class II antigens highlighting their potential as promising targets for T cell-based immunotherapy approaches to eliminate minimal residual disease in AML patients. Citation Format: Annika Nelde, Heiko Schuster, Tatjana Bilich, Jens Bauer, Malte Roerden, Sarah Schroeder, Jonas S. Heitmann, Elke Rücker-Braun, Hans-Georg Rammensee, Helmut R. Salih, Juliane S. Walz. Immunopeptidome-defined acute myeloid leukemia progenitor cell-associated antigens are targeted in vivo by AML patients’ T cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3168.