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Breaking hypoxic barrier: Oxygen-supplied nanomaterials for enhanced T cell-mediated tumor immunotherapy

Shuo Xiang, Hui Zhan, Jiaming Zhang, Xin Li, Xiaoji Lin, Wenjie Sun

2025International Journal of Pharmaceutics X10 citationsDOIOpen Access PDF

Abstract

Hypoxia in the tumor microenvironment (TME) is a critical barrier to effective cancer immunotherapy, as it suppresses T cell infiltration and response while fostering immune evasion. Oxygen-supplied nanomaterials (OSNs) have recently emerged as promising tools to alleviate hypoxia, modulate the TME, and enhance the efficacy of immunotherapies. This review explores the synergistic interplay between OSNs and T lymphocytes in overcoming hypoxia-driven immune suppression. We discuss the mechanisms by which hypoxia limits T cell functionality, infiltration, and cytotoxicity, and highlight how nanomaterials restore oxygenation, boost immune activation, and improve chemokine-mediated T cell recruitment. Key advances in nanotechnology, including perfluorocarbon-based systems and catalytic nanoparticles, are evaluated for their ability to improve anti-tumor immunity and synergize with immune checkpoint inhibitors and chimeric antigen receptor-T cell therapies. Finally, we address the challenges of nanomaterial delivery, safety, and clinical translation, emphasizing opportunities for personalized strategies. OSNs offer transformative potential to enhance T cell-mediated anti-tumor responses, advancing immunotherapy's frontier.

Topics & Concepts

Immune systemImmunotherapyCancer immunotherapyTumor microenvironmentT cellCancer researchImmune checkpointImmunityCellChemistryHypoxia (environmental)AntigenImmunologyCancerMedicineBiologyTransformative learningCancer cellChimeric antigen receptorCancer treatmentAdenosine and Purinergic SignalingNanoplatforms for cancer theranosticsImmune cells in cancer
Breaking hypoxic barrier: Oxygen-supplied nanomaterials for enhanced T cell-mediated tumor immunotherapy | Litcius