PO.IM02.07 · 免疫学
Patient-derived uveal melanoma organoids reveal HLA-I-restricted tumor antigens and tumor-reactive T cells
作者与单位
摘要 Abstract
Background: Uveal melanoma (UM) is a rare but aggressive melanoma subtype with limited response to immune checkpoint inhibitors. Identifying tumor-specific or associated antigens and tumor-reactive T cells is critical to advancing precision immunotherapy. Patient-derived tumor organoids (PDOs) offer a physiologically relevant ex vivo model to study tumor-immune interactions and to uncover novel therapeutic targets.
Methods: PDOs were established from fine-needle aspiration biopsies of five patients with metastatic UM. HLA-I-restricted immunopeptidomes were successfully characterized in three PDOs through immunoprecipitation of HLA-peptide complexes followed by mass spectrometry (MS). Identified peptides were matched against the UniProt human reviewed database. Dissociated tumor cells from one PDOs were treated with IFN-gamma to enhance antigen presentation and then co-cultured with autologous peripheral blood mononuclear cells (PBMCs) for sequential stimulations over four weeks. After a third stimulation, CD8⁺ T cells were analyzed by flow cytometry and subjected to single-cell RNA and paired V(D)J sequencing using the 10x Genomics platform to define phenotypes and clonotypes of activated T cells. Tumor-reactive TCR clonotypes were identified, and their CDR3beta sequences were analyzed using the TCRMatch tool in the IEDB database to assess sequence homology and potential antigen specificity.
Results: Immunopeptidomic analysis identified 3,628, 6,735, and 10,407 unique 8-11mer peptides across three PDOs. Shared tumor-associated antigens (TAAs) included CSPG4, TYRP1, SLC45A2, OCA2, PMEL, TYR, MLANA, and SOX10. T-cell activation assays demonstrated that 12.3% of CD8⁺ T cells exhibited HLA-I-dependent activation upon restimulation with autologous PDOs, which was abrogated by HLA-I blockade. Single-cell RNA sequencing of CD8⁺ T cells in the co-culture revealed activated cytotoxic clusters unique in the restimulated cells, characterized by high expression of CD137, GZMH, MIR155HG, PKM, and LAG3. TCR clonotype analysis using TCRMatch identified candidate tumor-reactive TCRs possibly recognizing PMEL, MART-1, and MAGEA10.
Conclusions: This study demonstrates the feasibility of using PDOs from metastatic UM to define the HLA-I-restricted immunopeptidome and to identify tumor-reactive T-cell clonotypes through autologous PDO-PBMC co-culture. The integration of immunopeptidomics with single-cell RNA/TCR sequencing provides a robust framework for mapping patient-specific tumor-immune interactions. Identified TAAs and tumor-reactive TCRs represent potential biomarkers and targets for next-generation precision immunotherapies, including personalized tumor vaccines and TCR-based adoptive cell therapies.
利益披露 Disclosure
A. Lim, None..
W. Tian, None..
Z. Li, None..
M. Monetti, None..
J. Smithy, None.
C. Zhan,
Replimune Other, multispecialty advisory board.