ATP-exhausted nanocomplexes for intratumoral metabolic intervention and photoimmunotherapy
Mian Yu, Weiwei Zeng, Yaqi Ouyang, Shu Liang, Yunfei Yi, Huisong Hao, Jiayin Yu, Yang Liu, Yichu Nie, Tianqi Wang, Yang Deng, Meiying Wu
Journal:BIOMATERIALS
IF:15.3
DOI:10.1016/j.biomaterials.2022.121503
PMID:35367841
Published:2022-03-29
research field:血管生物学眼科医学职业医学光生物学视觉科学环境毒理学神经炎症
Abstract
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 ( [email protected] ) to intervene in tumor energy metabolism and regulate tumor immune microenvironment . [email protected] 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, [email protected] 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.
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