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Breast cancer is the most prevalent malignancy in women, and the limited effectiveness of current treatments highlights the need for novel immune regulatory mechanisms to improve long-term survival. This study investigated the role of Vim in PGI₂ synthesis and its impact on tumor immune regulation. Multiomics profiling revealed molecular alterations following Vim deletion, which were validated in murine breast cancer models using RT-qPCR, Western blot, ELISA, and flow cytometry, with rescue experiments involving exogenous PGI₂. The findings showed that Vim deletion downregulated arachidonic acid metabolism, reduced PTGIS expression, and significantly lowered PGI₂ levels. Functional assays demonstrated that Vim deficiency enhanced T cell-mediated antitumor immunity, evidenced by an increased proportion of CD8⁺ T cells, upregulation of cytotoxic genes (Ifng, Gzmb, Tnf, and Klrd1), and activation of inflammation-related signaling pathways, as indicated by enhanced phosphorylation of ERK1/2 and p65. Both exogenous PGI₂ supplementation and ozagrel treatment reversed these effects. In conclusion, the Vim-PGI₂ axis is identified as a key regulator of CD8⁺ T cell immunity in breast cancer, representing a potential therapeutic target and a critical consideration in anticoagulant management during cancer immunotherapy.