IDH1 mutation creates a dependency on fatty acid metabolism that underlies sensitivity to cuproptosis in acute myeloid leukemia cells.

Acute myeloid leukemia (AML) harboring IDH1 mutations presents unique metabolic vulnerabilities that remain incompletely addressed by current targeted therapies. In this study, we demonstrate that IDH1-mutant AML cells are markedly more sensitive to cuproptosis induced by the copper ionophore elesclomol (ES), compared to their wild-type counterparts. While ES impairs mitochondrial function in both cell types, transcriptomic profiling reveals that ES treatment induces a global downregulation of lipid metabolism pathways. Functional assays further show that IDH1-mutant cells rely more heavily on exogenous fatty acids and exhibit impaired lipogenesis. Under lipid-deprived conditions, ES-induced cytotoxicity is significantly enhanced, suggesting a synthetic-lethal interaction between cuproptosis and fatty acid metabolic deficiency. experiments confirm that ES more effectively suppresses tumor growth in IDH1-mutant xenografts. These findings uncover a copper-dependent metabolic vulnerability and provide a rationale for exploiting cuproptosis as a therapeutic strategy in IDH1-mutant AML.