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Inhibition of Immunosuppressive Tumors by Polymer‐Assisted Inductions of Immunogenic Cell Death and Multivalent PD‐L1 Crosslinking

Lian Li, Yachao Li, Chieh‐Hsiang Yang, D. Christopher Radford, Jiawei Wang, Margit Janát‐Amsbury, Jindŕich Kopec̆ek, Jiyuan Yang

2020Advanced Functional Materials116 citationsDOIOpen Access PDF

Abstract

Abstract Checkpoint blockade immunotherapies harness the host's own immune system to fight cancer, but only work against tumors infiltrated by swarms of preexisting T cells. Unfortunately, most cancers to date are immune‐deserted. Here, a polymer‐assisted combination of immunogenic chemotherapy and PD‐L1 degradation is reported for efficacious treatment in originally nonimmunogenic cancer. “Priming” tumors with backbone‐degradable polymer‐epirubicin conjugates elicits immunogenic cell death and fosters tumor‐specific CD8+ T cell response. Sequential treatment with a multivalent polymer‐peptide antagonist to PD‐L1 overcomes adaptive PD‐L1 enrichment following chemotherapy, biases the recycling of PD‐L1 to lysosome degradation via surface receptor crosslinking, and produces prolonged elimination of PD‐L1 rather than the transient blocking afforded by standard anti‐PD‐L1 antibodies. Together, these findings establish the polymer‐facilitated tumor targeting of immunogenic drugs and surface crosslinking of PD‐L1 as a potential new therapeutic strategy to propagate long‐term antitumor immunity, which might broaden the application of immunotherapy to immunosuppressive cancers.

Topics & Concepts

Immunogenic cell deathImmunotherapyCancer researchImmune systemCD8Priming (agriculture)Cancer immunotherapyT cellMaterials scienceImmune checkpointPD-L1ImmunologyMedicineBiologyBotanyGerminationCancer Immunotherapy and BiomarkersCAR-T cell therapy researchNanoplatforms for cancer theranostics
Inhibition of Immunosuppressive Tumors by Polymer‐Assisted Inductions of Immunogenic Cell Death and Multivalent PD‐L1 Crosslinking | Litcius