Abstract <p>IDH mutant gliomas, driven by the oncometabolite 2-hydroxyglutarate (2-HG), are associated with profound neurological morbidity and premature mortality. To address the unmet therapeutic needs, we investigated the mechanistic interplay between MTHFD2-driven one-carbon metabolism and ferroptosis susceptibility in these tumors. Our findings revealed that MTHFD2 upregulation, mediated through loss of m5C modification in chromatin associated RNAs (caRNAs)—establishes a metabolic vulnerability to ferroptosis. Crucially, we identified TAF15 as a pivotal RNA-binding protein that orchestrates the spatial recruitment of TET2 by bridging NSUN5-mediated RNA m5C methylation. Therapeutically, combinatorial targeting of MTHFD2 with its selective inhibitor and the hypomethylating agent decitabine induced ferroptosis in patient-derived IDH-mut glioma organoids, demonstrating potent ferroptosis activation. This work delineates an RNA epitranscriptomic-metabolism axis in glioma pathogenesis and provides a translational roadmap for exploiting metabolic dependencies in IDH-driven malignancies.</p> Clinical trial number <p>Not applicable.</p>

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TAF15-mediated m5C modification of MTHFD2 RNA reveals a novel therapeutic target for IDH mutant gliomas

  • Ruixin Wu,
  • Licheng Zhang,
  • Peter JihCheng Wong,
  • Chunming Sun,
  • Yuan Feng,
  • Xiaoyu Wang,
  • Minjie Fu,
  • Jinsen Zhang,
  • Fufang Qiu,
  • Xi Chen,
  • Zhen Fan,
  • Minfeng Shu,
  • Wei Hua

摘要

Abstract

IDH mutant gliomas, driven by the oncometabolite 2-hydroxyglutarate (2-HG), are associated with profound neurological morbidity and premature mortality. To address the unmet therapeutic needs, we investigated the mechanistic interplay between MTHFD2-driven one-carbon metabolism and ferroptosis susceptibility in these tumors. Our findings revealed that MTHFD2 upregulation, mediated through loss of m5C modification in chromatin associated RNAs (caRNAs)—establishes a metabolic vulnerability to ferroptosis. Crucially, we identified TAF15 as a pivotal RNA-binding protein that orchestrates the spatial recruitment of TET2 by bridging NSUN5-mediated RNA m5C methylation. Therapeutically, combinatorial targeting of MTHFD2 with its selective inhibitor and the hypomethylating agent decitabine induced ferroptosis in patient-derived IDH-mut glioma organoids, demonstrating potent ferroptosis activation. This work delineates an RNA epitranscriptomic-metabolism axis in glioma pathogenesis and provides a translational roadmap for exploiting metabolic dependencies in IDH-driven malignancies.

Clinical trial number

Not applicable.