EMT-Derived Alterations in Glutamine Metabolism Sensitize Mesenchymal Breast Cells to mTOR Inhibition.
Sigurdur Trausti KarvelssonArnar SigurdssonKotryna SeipMaria Tunset GrindeQiong WangFreyr JohannssonGunhild Mari MælandsmoSiver Andreas MoestueÓttar RolfssonSkarphedinn HalldorssonPublished in: Molecular cancer research : MCR (2021)
Epithelial-to-mesenchymal transition (EMT) is a fundamental developmental process with strong implications in cancer progression. Understanding the metabolic alterations associated with EMT may open new avenues of treatment and prevention. Here we used 13C carbon analogs of glucose and glutamine to examine differences in their utilization within central carbon and lipid metabolism following EMT in breast epithelial cell lines. We found that there are inherent differences in metabolic profiles before and after EMT. We observed EMT-dependent re-routing of the TCA-cycle, characterized by increased mitochondrial IDH2-mediated reductive carboxylation of glutamine to lipid biosynthesis with a concomitant lowering of glycolytic rates and glutamine-dependent glutathione (GSH) generation. Using weighted correlation network analysis, we identified cancer drugs whose efficacy against the NCI-60 Human Tumor Cell Line panel is significantly associated with GSH abundance and confirmed these in vitro. We report that EMT-linked alterations in GSH synthesis modulate the sensitivity of breast epithelial cells to mTOR inhibitors. IMPLICATIONS: EMT in breast cells causes an increased demand for glutamine for fatty acid biosynthesis, altering its contribution to glutathione biosynthesis, which sensitizes the cells to mTOR inhibitors.
Keyphrases
- epithelial mesenchymal transition
- induced apoptosis
- network analysis
- cell cycle arrest
- fatty acid
- signaling pathway
- oxidative stress
- endoplasmic reticulum stress
- cell proliferation
- cell death
- squamous cell
- type diabetes
- bone marrow
- adipose tissue
- metabolic syndrome
- molecular docking
- microbial community
- pi k akt
- molecular dynamics simulations
- lymph node metastasis
- high grade