The metabolic landscape of ovarian cancer stem cells: how do they survive?
Jixue Tan, Lin Tang, Qian Zhang

TL;DR
This review explores how ovarian cancer stem cells use metabolic pathways to survive and resist treatment, offering insights into potential therapeutic strategies.
Contribution
The paper provides a comprehensive overview of the metabolic reprogramming in ovarian cancer stem cells and its implications for therapy.
Findings
OCSCs utilize glucose, lipid, and amino acid metabolism to maintain stemness and resist therapy.
Metabolic plasticity allows OCSCs to adapt to environmental changes and evade chemotherapy.
Metformin shows promise as a drug targeting CSC metabolism in preclinical and clinical studies.
Abstract
Ovarian cancer remains one of the most lethal malignancies of the female reproductive system, with its high mortality rate largely driven by chemotherapy resistance and disease recurrence. Ovarian cancer stem cells (OCSCs), a small subpopulation within ovarian tumors, are characterized by their capacity for self-renewal, differentiation, and tumorigenic growth. They are recognized as central drivers of tumor initiation, metastasis, drug resistance, and relapse. Mounting evidence in recent years has highlighted the pivotal role of metabolic reprogramming in sustaining OCSC stemness and therapeutic resistance. In this review, we reported the major metabolic pathways engaged by cancer stem cells (CSCs), including glucose metabolism (glycolysis, the tricarboxylic acid cycle, oxidative phosphorylation, and reactive oxygen species regulation), lipid metabolism, and amino acid metabolism.…
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Taxonomy
TopicsCancer, Hypoxia, and Metabolism · Metabolism, Diabetes, and Cancer · Cancer Cells and Metastasis
