新陈代谢
化学
谷氨酰胺
生物化学
磷脂
蛋氨酸
脂质代谢
磷脂酰乙醇胺
细胞生物学
生物
脂肪酸代谢
生物合成
作者
Jong Woo Kim,Seo Young Jang,Yeon Jin Roh,Yeajin Ju,Ju-Bin Kang,B. H. Park,Ji-Yoon Lee,Min Wook Kim,Byung Jun Jeong,Woosung Jung,Kyoung‐Jin Oh,Won Kon Kim,Baek-Soo Han,Kwang‐Hee Bae,Tackhoon Kim,Yun Pyo Kang,Hee Min Yoo,Chuna Kim,Scott J. Dixon,Dong Wook Choi
出处
期刊:Cell Reports
[Cell Press]
日期:2026-03-26
卷期号:45 (4): 117157-117157
标识
DOI:10.1016/j.celrep.2026.117157
摘要
Ferroptosis is a lipid peroxidation-induced cell death mechanism that is regulated by amino acid metabolism. Cystine deprivation induces ferroptosis, but ferroptosis execution requires other amino acids. While methionine contributes to several metabolic pathways, including transsulfuration (TS), its role in ferroptosis remains controversial. Here, we report that methionine is required for ferroptosis triggered by cysteine deprivation. Notably, the TS pathway and methionine cycle in lung cancer cells are largely inactive, and methionine is instead funneled into polyamine synthesis via the methionine salvage route. Methionine depletion provokes metabolic shifts that dampen glutamine catabolism via the glutamine-methionine bi-cycle. Furthermore, methionine depletion alters phospholipid metabolism by promoting ACSL4 degradation, limiting polyunsaturated fatty acid (PUFA) incorporation into phospholipids. The methionine cycle intermediate S-adenosylmethionine (SAM) supplementation is sufficient to restore the perturbed metabolic state and ferroptosis sensitivity. Taken together, the results of this study highlight methionine as a key coordinator of ferroptosis through dynamic metabolic remodeling.
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