mTORC1 依赖性代谢重编程为癌细胞逃避糖酵解成瘾奠定基础。

mTORC1-Dependent Metabolic Reprogramming Underlies Escape from Glycolysis Addiction in Cancer Cells.

机构信息

Department of Discovery Oncology, Genentech Inc, South San Francisco, CA 94080, USA.

Department of Bioinformatics and Computational Biology, Genentech Inc, South San Francisco, CA 94080, USA.

出版信息

Cancer Cell. 2016 Apr 11;29(4):548-562. doi: 10.1016/j.ccell.2016.02.018. Epub 2016 Mar 24.

DOI:10.1016/j.ccell.2016.02.018

PMID:27052953

Abstract

Although glycolysis is substantially elevated in many tumors, therapeutic targeting of glycolysis in cancer patients has not yet been successful, potentially reflecting the metabolic plasticity of tumor cells. In various cancer cells exposed to a continuous glycolytic block, we identified a recurrent reprogramming mechanism involving sustained mTORC1 signaling that underlies escape from glycolytic addiction. Active mTORC1 directs increased glucose flux via the pentose phosphate pathway back into glycolysis, thereby circumventing a glycolysis block and ensuring adequate ATP and biomass production. Combined inhibition of glycolysis and mTORC1 signaling disrupted metabolic reprogramming in tumor cells and inhibited their growth in vitro and in vivo. These findings reveal novel combinatorial therapeutic strategies to realize the potential benefit from targeting the Warburg effect.

摘要

尽管在许多肿瘤中糖酵解显著升高，但癌症患者的糖酵解治疗靶向尚未成功，这可能反映了肿瘤细胞的代谢可塑性。在各种连续糖酵解阻断的癌细胞中，我们确定了一种反复出现的重新编程机制，涉及持续的 mTORC1 信号，这是从糖酵解成瘾中逃脱的基础。活跃的 mTORC1 通过磷酸戊糖途径将增加的葡萄糖通量重新导向糖酵解，从而绕过糖酵解阻断并确保足够的 ATP 和生物量产生。糖酵解和 mTORC1 信号的联合抑制破坏了肿瘤细胞的代谢重编程，并抑制了它们在体外和体内的生长。这些发现揭示了新的组合治疗策略，以实现从靶向瓦伯格效应中获益的潜力。

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mTORC1 依赖性代谢重编程为癌细胞逃避糖酵解成瘾奠定基础。

mTORC1-Dependent Metabolic Reprogramming Underlies Escape from Glycolysis Addiction in Cancer Cells.

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