TET1 as a master regulator controlling GPX4-dependent and -independent ferroptosis surveillance in acute myeloid leukemia
Yang Lingling, Lu Jun, Yun Weina, Yang Xinquan, Sun Jie, Ge Chaodong, Han Fei, Li Xiang, Min Junxia, Huang He, Wang Fudi, Jiang Xi
Journal:Nature Communications
IF:15.7
DOI:10.1038/s41467-026-68509-x
PMID:41559050
Published:2026-01-20
research field:血管生物学药理学心血管疾病炎症研究
Abstract
Ferroptosis, an iron-dependent, lipid peroxidation-driven programmed cell death, holds substantial promise for cancer therapy, yet its translational potential is hindered by widespread intrinsic resistance. While glutathione peroxidase 4 (GPX4) is a well-established ferroptosis suppressor, the epigenetic circuitry coordinating GPX4-related mechanisms remains elusive. Here, via genome-wide screening, we identify ten-eleven translocation 1 (TET1)—a key mediator of DNA 5-hydroxymethylation—as a master controller of cancer cell ferroptosis susceptibility. In acute myeloid leukemia (AML), TET1 enhances 5hmC deposition at the glutamate-cysteine ligase catalytic subunit ( GCLC ) promoter to activate glutathione/γ-glutamyl-peptide metabolism, fortifying GPX4-dependent defense. Concurrently, TET1 activates NFκB signaling to upregulate GTP cyclohydrolase-1 ( GCH1 ), conferring GPX4-independent ferroptosis resistance. Critically, co-targeting TET1/GCLC/GCH1 with low-dose ferroptosis inducers exhibits potent therapeutic effects against both ferroptosis-sensitive and -resistant AML. Our work positions TET1 as a pivotal epigenetic hub governing ferroptosis surveillance, and provides a translatable strategy to overcome ferroptosis resistance in cancer, with AML as a paradigm.
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