ATP-exhausted nanocomplexes for intratumoral metabolic intervention and photoimmunotherapy

Tumor cells reprogram the metabolic pathways to acquire abundant nutrients and sustain malignant proliferation. This fierce metabolic competition in tumor ecosystem has been uncovered to be associated with tumor microenvironmental immunosuppression. Here we develop an adenosine triphosphate (ATP)-ex...

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Bibliographic Details
Published in:Biomaterials 2022-05, Vol.284, p.121503-121503, Article 121503
Main Authors: Yu, Mian, Zeng, Weiwei, Ouyang, Yaqi, Liang, Shu, Yi, Yunfei, Hao, Huisong, Yu, Jiayin, Liu, Yang, Nie, Yichu, Wang, Tianqi, Deng, Yang, Wu, Meiying
Format: Article
Language:English
Subjects:
Adenosine Triphosphate - metabolism
ATP depletion
Cell Line, Tumor
Ecosystem
Immunogenic cell death
Immunotherapy
Metabolic intervention
Oligopeptides - pharmacology
Oxidative stress
Photoimmunotherapy
Tumor Microenvironment
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Summary:Tumor cells reprogram the metabolic pathways to acquire abundant nutrients and sustain malignant proliferation. This fierce metabolic competition in tumor ecosystem has been uncovered to be associated with tumor microenvironmental immunosuppression. Here we develop an adenosine triphosphate (ATP)-exhausted nanocomplex (IR@ZIF-RGD) to intervene in tumor energy metabolism and regulate tumor immune microenvironment. IR@ZIF-RGD could effectively deplete intracellular ATP and inhibit ATP synthesis by ATP-responsive ZIF-90 and siRNA targeting thioredoxin reductase-2, respectively, thus leading to tumor metabolism disorders and immunosuppressive reversion. Meanwhile, IR@ZIF-RGD induced oxidative stress and ICG triggered photothermal therapy could provoke potent immunogenic cell death to enhance antitumor immunogenicity. Such a photo-immunometabolic nanocomplex has been demonstrated to be an efficient vaccine to elicit protective anticancer immune response in vivo, achieving suppressed growth of both primary and abscopal tumors, as well as inhibited tumor metastasis.
ISSN:0142-9612
1878-5905
DOI:10.1016/j.biomaterials.2022.121503