将操纵甘露糖代谢作为一种潜在的抗癌策略。

Yoichiro Harada
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引用次数: 0

摘要

与正常细胞相比,癌细胞在利用营养物质促进细胞持续增殖和在肿瘤微环境中存活方面具有新陈代谢优势。癌细胞的代谢特征中值得注意的是沃伯格效应,它是糖酵解的一种重编程形式,有利于从葡萄糖中快速生成 ATP,并通过将葡萄糖转化为各种代谢中间产物来生产生物大分子。同时,甘露糖是葡萄糖的 C-2 表聚体,它能够抑制沃伯格效应,从而使癌细胞缓慢循环,极易受到化疗的影响。当甘露糖在癌细胞中的分解代谢受到影响时,甘露糖的这种抗癌作用就会出现。此外,癌细胞内甘露糖的新合成也被确定为通过靶向糖基化途径增强化疗敏感性的潜在靶点。甘露糖代谢的改变导致癌细胞脆弱性的潜在机制刚刚开始浮出水面。本综述总结了我们对甘露糖代谢的认识现状,并深入探讨了如何将甘露糖代谢作为一种潜在的抗癌策略。
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Manipulating mannose metabolism as a potential anticancer strategy.

Cancer cells acquire metabolic advantages over their normal counterparts regarding the use of nutrients for sustained cell proliferation and cell survival in the tumor microenvironment. Notable among the metabolic traits in cancer cells is the Warburg effect, which is a reprogrammed form of glycolysis that favors the rapid generation of ATP from glucose and the production of biological macromolecules by diverting glucose into various metabolic intermediates. Meanwhile, mannose, which is the C-2 epimer of glucose, has the ability to dampen the Warburg effect, resulting in slow-cycling cancer cells that are highly susceptible to chemotherapy. This anticancer effect of mannose appears when its catabolism is compromised in cancer cells. Moreover, de novo synthesis of mannose within cancer cells has also been identified as a potential target for enhancing chemosensitivity through targeting glycosylation pathways. The underlying mechanisms by which alterations in mannose metabolism induce cancer cell vulnerability are just beginning to emerge. This review summarizes the current state of our knowledge of mannose metabolism and provides insights into its manipulation as a potential anticancer strategy.

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