通过一种稳定的基于金属-酚的聚合纳米药物来破坏肿瘤代谢的可塑性，以抑制结直肠癌。

Impairing Tumor Metabolic Plasticity via a Stable Metal-Phenolic-Based Polymeric Nanomedicine to Suppress Colorectal Cancer.

机构信息

Huaxi MR Research Center (HMRRC), Animal Experimental Center, Department of Radiology, National Clinical Research Center for Geriatrics, Frontiers Science Center for Disease-Related Molecular Network, State Key Laboratory of Biotherapy, West China Hospital, Sichuan University, Chengdu, 610041, China.

Functional and molecular imaging Key Laboratory of Sichuan Province, Key Laboratory of Transplant Engineering and Immunology, NHC, and Research Unit of Psychoradiology, Chinese Academy of Medical Sciences, Chengdu, 610041, China.

出版信息

Adv Mater. 2023 Jun;35(23):e2300548. doi: 10.1002/adma.202300548. Epub 2023 Apr 23.

DOI:10.1002/adma.202300548

PMID:36917817

Abstract

Targeting metabolic vulnerability of tumor cells is a promising anticancer strategy. However, the therapeutic efficacy of existing metabolism-regulating agents is often compromised due to tolerance resulting from tumor metabolic plasticity, as well as their poor bioavailability and tumor-targetability. Inspired by the inhibitive effect of N-ethylmaleimide on the mitochondrial function, a dendronized-polymer-functionalized metal-phenolic nanomedicine (pOEG-b-D-SH@NP) encapsulating maleimide-modified doxorubicin (Mal-DOX) is developed to enable improvement in the overall delivery efficiency and inhibition of the tumor metabolism via multiple pathways. It is observed that Mal-DOX and its derived nanomedicine induces energy depletion of CT26 colorectal cancer cells more efficiently than doxorubicin, and shifts the balance of programmed cell death from apoptosis toward necroptosis. Notably, pOEG-b-D-SH@NP simultaneously inhibits cellular oxidative phosphorylation and glycolysis, thus potently suppressing cancer growth and peritoneal intestinal metastasis in mouse models. Overall, the study provides a promising dendronized-polymer-derived nanoplatform for the treatment of cancers through impairing metabolic plasticity.

摘要

靶向肿瘤细胞的代谢脆弱性是一种很有前途的抗癌策略。然而，由于肿瘤代谢可塑性导致的耐受性，以及它们较差的生物利用度和肿瘤靶向性，现有的代谢调节药物的治疗效果往往受到影响。受 N-乙基马来酰亚胺对线粒体功能的抑制作用的启发，开发了一种树枝状聚合物功能化的金属多酚纳米药物（pOEG-b-D-SH@NP），该纳米药物包载马来酰亚胺修饰的阿霉素（Mal-DOX），可通过多种途径提高药物的递送效率并抑制肿瘤代谢。研究结果表明，Mal-DOX 及其衍生的纳米药物比阿霉素更有效地耗尽 CT26 结直肠癌细胞的能量，并将程序性细胞死亡的平衡从细胞凋亡转向坏死性凋亡。值得注意的是，pOEG-b-D-SH@NP 同时抑制细胞氧化磷酸化和糖酵解，从而在小鼠模型中强力抑制癌症生长和腹膜肠道转移。总的来说，该研究通过损害代谢可塑性，为癌症的治疗提供了一种很有前途的树枝状聚合物衍生的纳米平台。

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通过一种稳定的基于金属-酚的聚合纳米药物来破坏肿瘤代谢的可塑性，以抑制结直肠癌。

Impairing Tumor Metabolic Plasticity via a Stable Metal-Phenolic-Based Polymeric Nanomedicine to Suppress Colorectal Cancer.

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