Bifunctional black phosphorus quantum dots platform: Delivery and remarkable immunotherapy enhancement of STING agonist

Yujun Zhang, Shijing Wang, Hyeonji Rha, Chang Xu, Yue Pei, Xiaoyuan Ji, Junmin Zhang, Ruitao Lu, Shaochong Zhang, Zhongjian Xie, Jong Seung Kim

    Research output: Contribution to journalArticlepeer-review

    2 Citations (Scopus)

    Abstract

    Cancer immunotherapy has been developed to improve therapeutic effects for patients by activating the innate immune stimulator of interferon gene (STING) pathway. However, most patients cannot benefit from this therapy, mainly due to the problems of excessively low immune responses and lack of tumor specificity. Herein, we report a solution to these two problems by developing a bifunctional platform of black phosphorus quantum dots (BPQDs) for STING agonists. Specifically, BPQDs could connect targeted functional groups and regulate surface zeta potential by coordinating metal ions to increase loading (over 5 times) while maintaining high universality (7 STING agonists). The controlled release of STING agonists enabled specific interactions with their proteins, activating the STING pathway and stimulating the secretion release of immunosuppressive factors by phosphorylating TBK1 and IFN-IRF3 and secreting high levels of immunostimulatory cytokines, including IL-6, IFN-α, and IFN-β. Moreover, the immunotherapy was enhanced was enhanced mild photothermal therapy (PTT) of BPQDs platform, producing enough T cells to eliminate tumors and prevent tumor recurrence. This work facilitates further research on targeted delivery of small-molecule immune drugs to enhance the development of clinical immunotherapy.

    Original languageEnglish
    Article number122696
    JournalBiomaterials
    Volume311
    DOIs
    Publication statusPublished - 2024 Dec

    Bibliographical note

    Publisher Copyright:
    © 2024 Elsevier Ltd

    Keywords

    • Black phosphorus quantum dots
    • Immunotherapy
    • Mild photothermal therapy (PTT)
    • STING agonist
    • Targeted delivery

    ASJC Scopus subject areas

    • Biophysics
    • Bioengineering
    • Ceramics and Composites
    • Biomaterials
    • Mechanics of Materials

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