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Merck

Direct Tumor Killing and Immunotherapy through Anti-SerpinB9 Therapy.

Cell (2020-11-27)
Liwei Jiang, Yi-Jun Wang, Jing Zhao, Mayuko Uehara, Qingming Hou, Vivek Kasinath, Takaharu Ichimura, Naima Banouni, Li Dai, Xiaofei Li, Dale L Greiner, Leonard D Shultz, Xiaolong Zhang, Zhen-Yu Jim Sun, Ian Curtin, Nicholas E Vangos, Zoe C Yeoh, Ezekiel A Geffken, Hyuk-Soo Seo, Ze-Xian Liu, Gregory J Heffron, Khalid Shah, Sirano Dhe-Paganon, Reza Abdi
ABSTRACT

Cancer therapies kill tumors either directly or indirectly by evoking immune responses and have been combined with varying levels of success. Here, we describe a paradigm to control cancer growth that is based on both direct tumor killing and the triggering of protective immunity. Genetic ablation of serine protease inhibitor SerpinB9 (Sb9) results in the death of tumor cells in a granzyme B (GrB)-dependent manner. Sb9-deficient mice exhibited protective T cell-based host immunity to tumors in association with a decline in GrB-expressing immunosuppressive cells within the tumor microenvironment (TME). Maximal protection against tumor development was observed when the tumor and host were deficient in Sb9. The therapeutic utility of Sb9 inhibition was demonstrated by the control of tumor growth, resulting in increased survival times in mice. Our studies describe a molecular target that permits a combination of tumor ablation, interference within the TME, and immunotherapy in one potential modality.

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Sigma-Aldrich
IPTG, ≥99% (TLC), ≤0.1% Dioxane
Sigma-Aldrich
Anti-Fibroblast-specific Protein 1 (S100A4) Antibody, from rabbit, purified by affinity chromatography