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Energy metabolism in cancer stem cells
Authors:Xuan Zhu  Hui-Hui Chen  Chen-Yi Gao  Xin-Xin Zhang  Jing-Xin Jiang  Yi Zhang  Jun Fang  Feng Zhao  Zhi-Gang Chen
Abstract:
Normal cells mainly rely on oxidative phosphorylation as an effective energy source in the presence of oxygen. In contrast, most cancer cells use less efficient glycolysis to produce ATP and essential biomolecules. Cancer cells gain the characteristics of metabolic adaptation by reprogramming their metabolic mechanisms to meet the needs of rapid tumor growth. A subset of cancer cells with stem characteristics and the ability to regenerate exist throughout the tumor and are therefore called cancer stem cells (CSCs). New evidence indicates that CSCs have different metabolic phenotypes compared with differentiated cancer cells. CSCs can dynamically transform their metabolic state to favor glycolysis or oxidative metabolism. The mechanism of the metabolic plasticity of CSCs has not been fully elucidated, and existing evidence indicates that the metabolic phenotype of cancer cells is closely related to the tumor microenvironment. Targeting CSC metabolism may provide new and effective methods for the treatment of tumors. In this review, we summarize the metabolic characteristics of cancer cells and CSCs and the mechanisms of the metabolic interplay between the tumor microenvironment and CSCs, and discuss the clinical implications of targeting CSC metabolism.
Keywords:Cancer stem cells   Differentiated cancer cells   Metabolic characteristics   Oxidative phosphorylation   Glycolysis   Tumor microenvironment   Metabolic interplay
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