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GLS1-mediated glutamine metabolism mitigates oxidative stress-induced matrix degradation, ferroptosis, and senescence in nucleus pulposus cells by modulating Fe2+ homeostasis

Jiajun Wu, Tianyu Qin, Weitao Han, Chao Zhang, Xiaohe Zhang, Zhengqi Huang, Yu‐Liang Wu, Yichun Xu, Kang Xu, Wei Ye

2024Free Radical Biology and Medicine17 citationsDOI

Topics & Concepts

Cell biologyOxidative stressHomeostasisSenescenceGlutamineMetabolismChemistryNucleusCellular senescenceGlutamine synthetaseOxidative phosphorylationDegradation (telecommunications)BiologyBiochemistryGeneAmino acidPhenotypeTelecommunicationsComputer scienceIron Metabolism and DisordersFolate and B Vitamins ResearchFerroptosis and cancer prognosis
GLS1-mediated glutamine metabolism mitigates oxidative stress-induced matrix degradation, ferroptosis, and senescence in nucleus pulposus cells by modulating Fe2+ homeostasis | Litcius