Abstract LB065: Tumor-infiltrating lymphocytes (TIL) engineered with regulatable membrane-bound IL15 (mbIL15) and LIGHT (TNFSF14) show enhanced efficacy in fibroblast-containing cold tumors

Abstract Introduction: Adoptive cellular therapies (ACT) have encountered challenges in solid tumors due in part to the immunosuppressive tumor microenvironment (TME). We have developed OBX-115, TIL engineered to express mbIL15 regulatable using the cytoDRiVE® platform, which allows for TIL expansion, persistence, and anti-tumor efficacy under control of the FDA-approved small-molecule ligand, acetazolamide (ACZ), eliminating the need for co-administration of IL2 (NCT05470283). LIGHT, a tumor necrosis factor family member, interacts with lymphotoxin beta receptor (LTbR) and herpes virus entry mediator (HVEM) found on various TME cell types, including stromal cells such as cancer associated fibroblasts (CAF). In preclinical studies, LIGHT expression within a tumor has been linked to the formation of tertiary lymphoid structures and vascular normalization (Ramachandran Cancer Cell 2023), both associated with better clinical outcomes (Sautès-Fridman Nat Rev Cancer 2019). We hypothesized that engineering TIL with regulatable mbIL15 and LIGHT expression could enhance their efficacy by modifying the TME. Methods: TIL from colorectal (CRC) and head and neck squamous cell carcinoma (HNSCC) were transduced with retroviral vectors to express regulatable mbIL15 and LIGHT. ACZ-induced surface expression of mbIL15 and LIGHT in expanded TIL was examined using flow cytometry. Functional signaling of LIGHT was assessed through co-culture with Jurkat-HVEM-NF-kappaB reporter cells and LTbR+ HUVEC cells. In vitro, engineered TIL were tested in stromal-rich tumor models (CRC and HNSCC) by co-culturing with autologous patient-derived tumor/CAF hybrid spheroids. In vivo, antigen-independent TIL persistence was assessed in NSG mice without exogenous IL2. Syngeneic studies were performed to assess the efficacy of adoptively transferred mbIL15 and LIGHT-engineered Pmel cells (CD8+ T cells transgenic for a gp100-specific T cell receptor) in a subcutaneous cold tumor model (B16-F10). Results: Engineered TIL were successfully expanded without exogenous IL2. ACZ-dependent mbIL15 and LIGHT expression were confirmed, validating co-regulation and functionality in vitro. TIL engineered with mbIL15 and LIGHT displayed significantly increased cytotoxicity against autologous tumor/CAF spheroids compared with TIL expressing mbIL15 alone (p<0.005) in CRC and HNSCC tumor/CAF hybrid models. TIL with mbIL15 and LIGHT expanded in vivo and persisted for ≥42 days without exogenous IL2 support. Moreover, Pmel cells engineered with mbIL15 and LIGHT demonstrated durable anti-tumor efficacy in B16-F10 tumor-bearing mice, which was greater than Pmel cells engineered with mbIL15 alone (p<0.01). Conclusions: These preclinical results suggest that TIL engineered with regulatable mbIL15 and LIGHT using the cytoDRiVE platform have the potential to address the high unmet clinical need in cold tumors with suppressive TME, which are currently not amenable to ACT. Citation Format: Balazs Koscso, Zheng Ao, Carmela Passaro, Nirzari Shah, Ngoc Ly, Patricia Timpug, Bulent A. Aksoy, Dexue Sun, Dan Jun Li, Kerri-Lynn Sheahan, Violet Young, Theresa Ross, Benjamin Primack, Meghan Langley, Jeremy Tchaicha, Dhruv K. Sethi, Jan ter Meulen, Michelle Ols. Tumor-infiltrating lymphocytes (TIL) engineered with regulatable membrane-bound IL15 (mbIL15) and LIGHT (TNFSF14) show enhanced efficacy in fibroblast-containing cold tumors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 2 (Late-Breaking, Clinical Trial, and Invited Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(7_Suppl):Abstract nr LB065.