Journal article
A TAK1 cytokine toxicity checkpoint controls anti-cancer immunity
TM Djajawi, A Huber, SM Rivera, A Srivaths, M Salehi, G Gunay, C Gerak, L Neil, O Ozaydin, O Voulgaris, A Al Halawani, D Gannon, N Khoshdoozmasouleh, LJ Jenkins, KF Chan, A Behren, M Ernst, LA Mielke, EJ Lelliott, H Dong Show all
Cell Reports | Published : 2026
Abstract
Cancer immunotherapies benefit only a subset of patients, highlighting the need to define tumor-intrinsic mechanisms of immune evasion. Using a kinome-wide CRISPR-Cas9 screen, we identify MAP3K7 (transforming growth factor beta-activated kinase 1 [TAK1]) as a checkpoint that protects cancer cells from CD8+T cell-mediated killing. TAK1 integrates tumor necrosis factor (TNF) and interferon gamma (IFNγ) signals to drive a cytoprotective response that blocks cytokine-induced death and prevents bystander killing by perforin-deficient T cells. Inhibition of TAK1 redirects TNF/IFNγ signaling toward apoptosis via RIPK1 and caspase-8 while simultaneously amplifying IFNγ outputs to further prime cells..
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Awarded by Cass Foundation