Targeting TBK1 to overcome resistance to cancer immunotherapy
Sun Y, Revach O, Anderson S, Kessler E, Wolfe C, Jenney A, Mills C, Robitschek E, Davis T, Kim S, Fu A, Ma X, Gwee J, Tiwari P, Du P, Sindurakar P, Tian J, Mehta A, Schneider A, Yizhak K, Sade-Feldman M, LaSalle T, Sharova T, Xie H, Liu S, Michaud W, Saad-Beretta R, Yates K, Iracheta-Vellve A, Spetz J, Qin X, Sarosiek K, Zhang G, Kim J, Su M, Cicerchia A, Rasmussen M, Klempner S, Juric D, Pai S, Miller D, Giobbie-Hurder A, Chen J, Pelka K, Frederick D, Stinson S, Ivanova E, Aref A, Paweletz C, Barbie D, Sen D, Fisher D, Corcoran R, Hacohen N, Sorger P, Flaherty K, Boland G, Manguso R, Jenkins R. Targeting TBK1 to overcome resistance to cancer immunotherapy. Nature 2023, 615: 158-167. PMID: 36634707, PMCID: PMC10171827, DOI: 10.1038/s41586-023-05704-6.Peer-Reviewed Original ResearchConceptsOvercome resistance to cancer immunotherapyResistance to cancer immunotherapyPD-1 blockadeCancer immunotherapyImmune-evasion genesResponse to PD-1 blockadePatient-derived tumor modelsPatient-derived organoidsEffective treatment strategiesTBK1 inhibitionPD-1Effector cytokinesConcordant findingsTumor cellsTumor modelCaspase-dependent cell deathResponse to TNFTreatment strategiesTargeting TBK1ImmunotherapyPharmacological toolsBlockadeTumor spheroidsCell deathTBK1
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