Use of metabolic pathway flux information in anticancer drug design.

L G Boros, T F Boros
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引用次数: 8

Abstract

The metabolic phenotype of tumor cells promote the proliferative state, which indicates that (a) cell transformation is associated with the activation of specific metabolic substrate channels toward nucleic acid synthesis and (b) increased expression phosphorylation, allosteric or transcriptional regulation of intermediary metabolic enzymes and their substrate availability together mediate unlimited growth. It is evident that cell transformation due to various K-ras point mutations is associated with the activation of specific metabolic substrate channels that increase glucose channeling toward nucleic acid synthesis. Therefore, phosphorylation, allosteric and transcriptional regulation of intermediary metabolic enzymes and their substrate availability together mediate cell transformation and growth. In this review, we summarize opposite changes in metabolic phenotypes induced by various cell-transforming agents, and tumor growth-inhibiting drugs or phytochemicals, or novel synthetic antileukemic drugs such as imatinib mesylate (Gleevec). Metabolic enzymes that further incite growth signaling pathways and thus promote malignant cell transformation serve as high-efficacy nongenetic novel targets for cancer therapies.

代谢途径通量信息在抗癌药物设计中的应用。
肿瘤细胞的代谢表型促进了增殖状态,这表明(a)细胞转化与核酸合成的特定代谢底物通道的激活有关;(b)中间代谢酶的表达磷酸化、变构或转录调节的增加以及它们的底物可用性共同介导无限生长。很明显,由于各种K-ras点突变引起的细胞转化与特定代谢底物通道的激活有关,这些通道增加了葡萄糖向核酸合成的通道。因此,中间代谢酶的磷酸化、变构和转录调控及其底物利用率共同介导细胞的转化和生长。在这篇综述中,我们总结了各种细胞转化剂,肿瘤生长抑制药物或植物化学物质,或新型合成抗白血病药物如甲酸伊马替尼(格列卫)诱导的代谢表型的相反变化。代谢酶进一步刺激生长信号通路,从而促进恶性细胞转化,是癌症治疗的高效非遗传新靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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