Abstract Background: Most pancreatic cancers (PC) are inert to immunotherapy, yet a subset of metastatic PC derives durable benefit from PARP-PD-1 blockade (POLAR trial, NCT04666740). The 2-year survival rate was 56% for patients with HRD disease (N=33). Previously, we identified circulating TCR clonotypes that expanded on treatment in responders. These clonotypes constituted 0. 05% of circulating TCRs at baseline and 10% were barcode-matched to intratumoral T cells by scTCR-seq, defining tumor-infiltrating expanding (TIE) clonotypes. TIE clonotypes were identified exclusively in 7 exceptional responders (minimum OS 18m, median OS not reached). However, the T cell lineage, state and spatial organization of TIE clonotypes remain unknown. Methods: We performed Xenium spatial transcriptomics of 53 longitudinal primary and metastatic samples from 36 POLAR participants, including 5 exceptional responders using a customized 480-gene panel, including probes designed for specific TIE clonotypes (N=18) identification. High-quality neoepitopes from long-term responders were predicted from exome sequencing and subsequently generated for functional T-cell activation assays. Results: Over 3. 2 million malignant and stromal cells were profiled spatially. TIE+ clonotypes were detected at the time of diagnosis, prior to any systemic treatment, in both available samples (2/2) and persisted at least 3 years from initiation of PARP/PD-1 blockade. In the 5 exceptional responders, TIE+ clonotypes accounted for 1. 49% of the intratumoral CD8 T-cell compartment across all timepoints. Prior to disease progression, TIE+ clonotypes were restricted to the CD8⁺ T cell lineage, and were spatially closer to tumor cells than TIE⁻ CD8⁺ T cells (median distance 62 vs 121 µm), while also displaying enhanced cytotoxicity (IFNG⁺), a type 1 effector profile (TBX21+), and chronic antigen-driven activation (ENTPD1+, TOX+). In contrast, at disease progression, the median distance between TIE+ CD8⁺ T cells and tumor cells increased to 82 µm, along with TIE detection among FoxP3+ CTLA4+ Tregs (36% of TIE). Baseline resistance was associated with an MKI67ʰi malignant cell state exhibiting enhanced KRAS signaling activity, coupled with myofibroblast-driven stromal remodeling that constrained T-cell infiltration. Predicted neopeptides in TIE+ responders are undergoing functional T cell assays to elucidate specific immune responses. Conclusions: Exceptional benefit from PARP-PD-1 blockade in PC is associated with the expansion and sustained intratumoral positioning of rare, pre-existing tumor-reactive CD8⁺ T cell clonotypes. These data support a model in which select HRD tumors are immunogenic from disease onset and resistance emerges at least partly through stromal remodeling and spatial immune exclusion. Citation Format: Marc Hilmi, Wilson Mckerrow, Joshua D. Schoenfeld, Shigeaki Umeda, Nuray Tezcan, Catherine O'Connor, Yuval Elhanati, Charlotte Reiche, Martina Milighetti, Mara Sherman, Elias-Ramzey Karnoub, Roshan Sharma, Vincenzo Nasca, Kevin Soares, Zeynep Tarcan, Jerry Melchor, Olca Basturk, Nadeem Riaz, Nicolas Lecomte, Vinod P. Balachandran, Dana Pe’er, Benjamin D. Greenbaum, Christine A. Iacobuzio-Donahue, Eileen M. O'Reilly, Wungki Park. Invigorating pre-existing tumor-infiltrating expandable (TIE) T cell clonotypes in exceptional responders with dual PARP-PD-1 blockade in homologous recombination deficient (HRD) pancreatic cancer abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2026; Part 2 (Late-Breaking, Clinical Trial, and Invited Abstracts) ; 2026 Apr 17-22; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2026;86 (8Suppl): Abstract nr LB423.
Hilmi et al. (Fri,) studied this question.