Synergistic glycolysis disturbance for cancer therapy by a MOF-based nanospoiler.

Xuemei Zeng, Yihang Ruan, Lun Wang, Jinpeng Deng, Shuangqian Yan
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Abstract

Increased glycolysis for promoting adenosine triphosphate (ATP) generation is one of the hallmarks of cancer. Although reducing glucose intake or depriving cellular glucose can delay the growth of tumors to some extent, their therapeutic efficacy is a highly needed improvement for clinical translation. Herein, we found that mannose synergistic with glucose oxidase (GOx) can induce cell death by ATP inhibition, autophagy activation, and apoptosis protein upgradation. By using biodegradable zeolitic imidazolate frameworks (ZIF-8) as a nanocarrier (denoted as ZIF-8/M&G), the mannose and GOx can accumulate at the tumor site while having no obvious long-term toxicity. At the tumor site, GOx inhibits glycolysis by converting glucose and oxygen to H 2O 2 and gluconic acid, realizing oxidation therapy and expediting the degradation of the pH-responsive ZIF-8 nanoparticles, respectively. Simultaneously, mannose disturbs sugar metabolism and reduces oxygen consumption, which in turn promotes the GOx oxidation process. The concerted glycolysis inhibition through interactions between mannose and GOx endows ZIF-8/M&G nanospolier with excellent therapeutic efficacy both in vitro and in vivo. Synergistic glycolysis disturbance by the designed nanospoiler in this work proposes a versatile approach for metabolism disturbance to tumor treatment.

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基于mof的纳米扰流剂治疗肿瘤的协同糖酵解干扰。
促进三磷酸腺苷(ATP)生成的糖酵解增加是癌症的标志之一。虽然减少葡萄糖摄入或剥夺细胞葡萄糖可以在一定程度上延缓肿瘤的生长,但其治疗效果是临床转化急需提高的。本研究发现,甘露糖与葡萄糖氧化酶(GOx)协同作用可通过ATP抑制、自噬激活和凋亡蛋白升级诱导细胞死亡。通过使用可生物降解的沸石咪唑酸框架(ZIF-8)作为纳米载体(表示为ZIF-8/M&G),甘露糖和GOx可以在肿瘤部位积累,而没有明显的长期毒性。在肿瘤部位,GOx通过将葡萄糖和氧气转化为h2o和葡萄糖酸来抑制糖酵解,分别实现氧化治疗和加速ph响应的ZIF-8纳米颗粒的降解。同时,甘露糖干扰糖代谢,减少氧气消耗,从而促进GOx氧化过程。甘露糖与GOx相互作用协同抑制糖酵解,使ZIF-8/M&G纳米孢子在体内外均具有优异的治疗效果。本研究设计的纳米扰流器的协同糖酵解干扰为代谢干扰对肿瘤的治疗提供了一种通用的方法。
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CiteScore
1.30
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0.00%
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117
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Multi-phase separation in mitochondrial nucleoids and eukaryotic nuclei. Synergistic glycolysis disturbance for cancer therapy by a MOF-based nanospoiler. M6A RNA methylation modification and tumor immune microenvironment in lung adenocarcinoma. Antioxidant activity of the thioredoxin system. The risk model construction of the genes regulated by H3K36me3 and H3K79me2 in breast cancer.
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