Abstract B042: Dissection of the T cell infiltrate in mouse pancreatic tumors reveals a diverse tumor-reactive T cell repertoire targeting neoantigens and tumor-associated antigens

Abstract

Abstract Although pancreatic cancer is generally refractory to immune checkpoint blockade (ICB), recent studies of tumor-infiltrating T cells in human tumor samples demonstrated the presence of in vivo expanded, tumor-reactive T cell receptor (TCR) clonotypes. Here, we explored the T cell repertoire in ICB-refractory murine pancreatic cancer models by combining single-cell transcriptomics with functional TCR characterization. Our initial studies in an orthotopic, transplantable model revealed a remarkable diversity of tumor-reactive TCR clonotypes that could be distinguished from bystander T cells based on gene expression signatures. We identified TCRs exclusively reactive against the tumor of origin, TCRs that also react against an independently derived pancreatic tumor line, and TCRs broadly reactive to tumor cells of diverse tissue origin (e.g. MC38), the latter category being predominant. Subsequent studies were performed in an autochthonous mouse model, in which single focal tumors were induced in the pancreas by means of in vivo electroporation of gene constructs encoding mutant Kras and inducing CRISPR/Cas9-mediated inactivation of tumor suppressor genes. We analyzed the T cell repertoire in tumors with different levels of mutational burden by also inactivating DNA damage repair genes. Interestingly, even in mismatch repair-deficient tumors that featured a high mutational load, the anti-tumor T cell response was primarily directed against recurrent tumor-associated antigens (TAAs) rather than ‘private’ mutanome-encoded neoantigens. Several TAA-reactive TCRs also mediated reactivity against non-transformed cells. Immunopeptidome analysis thus far revealed the identity of 5 cognate antigens targeted by the tumor-reactive TCR repertoire: a mutanome-encoded neoantigen, an epitope encoded by an ectopically expressed endogenous retroviral provirus, and three epitopes derived from TAAs: Lon Peptidase 2 (LONP2), ATPase Na+/K+ Transporting Subunit Beta 3 (ATP1B3) and SEC24B, a component of secretory vesicles. Notably, the overexpression of LONP2 and ATP1B3 was found associated with progression of human cancers, whereas silencing was shown to suppress tumor cell growth. Overexpression of SEC24B in cancers has not been reported, but this protein plays an essential role in the secretory pathway of acinar cells. In summary, in-depth analysis of the natural T cell response in murine pancreatic cancer models revealed a diverse tumor-reactive T cell repertoire that is predominantly directed against TAAs, some of which are also expressed in normal somatic cells. These findings underline the importance of uncovering the antigen-specificity of the natural tumor-reactive TCR repertoire, both in mouse models and human tumor samples, to assess its therapeutic potential and safety with regard to personalized immunotherapy. Citation Format: Stefan Zens, Hannes Kehm, Daniel Baumann, Aline Konrad, Zibo Meng, Arnoud H. de Ru, Julian Mochayedi, Francesca Lucato, Angelika B. Riemer, Isabel Poschke, Michael Volkmar, Peter A. van Veelen, Rienk Offringa. Dissection of the T cell infiltrate in mouse pancreatic tumors reveals a diverse tumor-reactive T cell repertoire targeting neoantigens and tumor-associated antigens [abstract]. In: Proceedings of the AACR Special Conference in Cancer Research: Advances in Pancreatic Cancer Research; 2024 Sep 15-18; Boston, MA. Philadelphia (PA): AACR; Cancer Res 2024;84(17 Suppl_2):Abstract nr B042.