Rewiring tumor cytokine networks to enhance immune checkpoint blockade: mechanisms, engineering, and clinical translation
Xiaodong Wang, Junjie Wang, Qianqian Wang, Gouping Ding, Yiping Huang, Yeqian Feng

TL;DR
This paper explores how modifying cytokine networks in tumors can improve the effectiveness of immune checkpoint inhibitors, offering new strategies to overcome resistance and expand treatment benefits.
Contribution
The paper integrates mechanistic insights with translational strategies to rationally modulate cytokine networks alongside immune checkpoint inhibitors.
Findings
Cytokine agonism and engineered variants can enhance immune activation in the tumor microenvironment.
Neutralizing immunosuppressive mediators like IL-6 and TGF-β shows promise in improving treatment outcomes.
Clinical trials highlight the importance of dose, schedule, and compartmentalization for successful cytokine-based therapies.
Abstract
Immune checkpoint inhibitors (ICIs) targeting PD-1/PD-L1 and CTLA-4 can produce durable remissions in multiple solid tumors, yet primary and acquired resistance remain frequent, often sustained by an immunosuppressive tumor microenvironment (TME). Cytokines orchestrate immune activation and suppression in the TME, and their crosstalk with checkpoint pathways shapes T-cell priming, trafficking, effector function, and adaptive feedback such as PD-L1 induction. Here we integrate mechanistic evidence with translational strategies to modulate cytokine networks as rational partners for ICIs. We discuss cytokine agonism (native cytokines and engineered variants), targeted immunocytokines and receptor-selective designs, and localized delivery platforms including intratumoral electroporation, viral and gene-therapy vectors. We also review approaches that neutralize immunosuppressive mediators…
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Taxonomy
TopicsCancer Immunotherapy and Biomarkers · CAR-T cell therapy research · Cancer, Stress, Anesthesia, and Immune Response
