Abstract Chimeric antigen receptor T cells (CARTs) targeting Her2 represent a promising approach for the treatment of patients with Her2 expressing breast cancers (BC). Her2 CARTs confront major challenges within the immune-suppressive tumor microenvironment (TME) of breast cancer, which inhibits sustained T cell proliferation and persistent antitumor activity. To bolster Her2 CARTs' expansion and persistence, we engineered a TNF-related apoptosis-inducing ligand receptor 2 (TR2) specific scFv connected to the endodomain of 4-1BB (TR2BB). TR2BB co-expressing Her2 CARTs exhibited enhanced antitumor potential against BC tumors by triggering myelod derived suppressor cell (MDSC) apoptosis, thereby remodeling the TME and promoting T cell proliferation. Despite better tumor control in mice receiving CAR.TR2BB T cells, recent trials have demonstrated the importance of incorporating a cytokine signal for optimal tumor control in patients with solid tumors. Thus, we hypothesized that we could further augment anti-tumor activity of Her2 CAR.TR2BB T cells against BC by incorporating a cytokine signal 3 through IL-15 or C7R. We engineered the CARTs to (1) ectopically produce IL-15, a crucial T-cell homeostasis and survival cytokine, and (2) express a constitutively active IL-7 receptor (C7R) that triggers IL-7 receptor signaling independently of ligand or the common receptor gamma chain (γc). Our repeat weekly tumor challenge assay revealed that CAR.TR2BB.IL15 T cells outperformed CAR.TR2BB.C7R and CAR.TR2BB in T cell proliferation. Both CAR.TR2BB.IL15 and CAR.TR2BB.C7R exhibited improved cytotoxic potential after three weeks of antigen stimulation compared to CAR.TR2BB alone in comparison with CAR.TR2BB alone. Furthermore, in our in vivo xenograft NSG mouse models implanted with Her2 expressing breast cancer cell line and MDSCs, CAR.TR2BB.IL15 T cells showed superior tumor control and improved survival rates. In summary, the addition of IL15 transgene to our TME targeting Her2 CARTs provides an advantage in terms of T cell persistence, proliferation, and tumor control in in vitro and in vivo models. These promising preclinical results propel us to apply this optimized Her2 targeting CART therapy in a phase I clinical trial for patients with metastatic Her2-expressing breast cancers. Citation Format: Diego Chamorro, Lauren Somes, Emily Madaras, Saisha Nalawade, Paul Shafer, Andres Mosquera, Mary Kathryn McKenna, Valentina Hoyos. Enhancing Antitumor Activity of Her2 CAR T cells through TR2BB Co-Expression and Cytokine Signal 3 Incorporation [abstract]. In: Proceedings of the 2023 San Antonio Breast Cancer Symposium; 2023 Dec 5-9; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2024;84(9 Suppl):Abstract nr PO5-04-06.