PR002150 (Project)

Description:Ferroptosis is a cell death modality in which iron-dependent lipid peroxides accumulate on cell membranes. Cysteine, a limiting substrate for the glutathione system that neutralizes lipid peroxidation and prevents ferroptosis, can be converted by cystine reduction or synthesized from methionine. However, accumulating evidence shows methionine-based cysteine synthesis fails to effectively rescue intracellular cysteine levels upon cystine deprivation and is unable to inhibit ferroptosis. Here, we report that methionine-based cysteine synthesis is tissue-specific. Unexpectedly, we find that rather than inhibiting ferroptosis, methionine in fact plays an essential role during cystine deprivation-induced ferroptosis. Methionine-derived S-adenosylmethionine (SAM) contributes to methylation-dependent ubiquinone synthesis, which leads to lipid peroxides accumulation and subsequent ferroptosis. Moreover, SAM supplementation synergizes with imidazole ketone erastin in a tumor growth suppression mouse model. Inhibiting the enzyme that converts methionine to SAM protects heart tissue from doxorubicin-induced and ferroptosis-driven cardiomyopathy. This study broadens our understanding about the intersection of amino acid metabolism and ferroptosis regulation, providing insight into the underlying mechanisms and suggesting the methionine-SAM axis is a promising therapeutic strategy to treat ferroptosis-related diseases.
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File

A 6.39 GB file from Metabolomics produced from OBI:0003097 as part of the PR002150 project

Biosample

A biosample from Metabolomics produced as part of the PR002150 project

Biosample

A biosample from Metabolomics produced as part of the PR002150 project

Biosample

A biosample from Metabolomics produced as part of the PR002150 project

Subject

A subject produced as part of the PR002150 project

Biosample

A biosample from Metabolomics produced as part of the PR002150 project

Biosample

A biosample from Metabolomics produced as part of the PR002150 project

Biosample

A biosample from Metabolomics produced as part of the PR002150 project

Biosample

A biosample from Metabolomics produced as part of the PR002150 project

Biosample

A biosample from Metabolomics produced as part of the PR002150 project

  • File

    A 6.39 GB file from Metabolomics produced from OBI:0003097 as part of the PR002150 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002150 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002150 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002150 project


  • Subject

    A subject produced as part of the PR002150 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002150 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002150 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002150 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002150 project


  • Biosample

    A biosample from Metabolomics produced as part of the PR002150 project

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