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信号在细胞生长和代谢的控制中发挥作用。

Signaling in control of cell growth and metabolism.

机构信息

Cancer Biology and Genetics Program, Memorial Sloan-Kettering Cancer Center, New York, New York 10065, USA.

出版信息

Cold Spring Harb Perspect Biol. 2012 Jul 1;4(7):a006783. doi: 10.1101/cshperspect.a006783.

DOI:10.1101/cshperspect.a006783
PMID:22687276
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3385956/
Abstract

Mammalian cells require growth-factor-receptor-initiated signaling to proliferate. Signal transduction not only initiates entry into the cell cycle, but also reprograms cellular metabolism. This instructional metabolic reprogramming is critical if the cell is to fulfill the anabolic and energetic requirements that accompany cell growth and division. Growth factor signaling mediated by the PI3K/Akt pathway plays a major role in regulating the cellular uptake of glucose, as well as the incorporation of this glucose carbon into lipids for membrane synthesis. Tyrosine-kinase-based regulation of key glycolytic enzymes such as pyruvate kinase also plays a critical role directing glucose carbon into anabolic pathways. In addition, the Myc transcription factor and mTOR kinase regulate the uptake and utilization of amino acids for protein and nucleic acid synthesis, as well as for the supply of intermediates to the mitochondrial Krebs cycle. However, the relationship between cellular signaling and metabolism is not unidirectional. Cells, by sensing levels of intracellular metabolites and the status of key metabolic pathways, can exert feedback control on signal transduction networks through multiple types of metabolite-derived protein modifications. These mechanisms allow cells to coordinate growth and division with their metabolic activity.

摘要

哺乳动物细胞需要生长因子受体引发的信号来增殖。信号转导不仅启动细胞周期进入,还重新编程细胞代谢。如果细胞要满足伴随细胞生长和分裂的合成代谢和能量需求,这种指令性代谢重编程至关重要。由 PI3K/Akt 途径介导的生长因子信号在调节细胞对葡萄糖的摄取以及将葡萄糖碳掺入脂质以合成膜方面发挥着重要作用。酪氨酸激酶对关键糖酵解酶(如丙酮酸激酶)的调节也在将葡萄糖碳定向到合成代谢途径方面发挥着关键作用。此外,Myc 转录因子和 mTOR 激酶调节氨基酸的摄取和利用,用于蛋白质和核酸合成,以及为线粒体克雷布斯循环提供中间产物。然而,细胞信号和代谢之间的关系并不是单向的。细胞通过感知细胞内代谢物的水平和关键代谢途径的状态,可以通过多种类型的代谢物衍生的蛋白质修饰对信号转导网络施加反馈控制。这些机制使细胞能够将生长和分裂与代谢活动协调起来。

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