Author
Listed:
- Guillaume P. Andrieu
(Université Paris Cité
Université Paris Cité)
- Mathieu Simonin
(Université Paris Cité
Université Paris Cité
Université Paris Sorbonne)
- Aurélie Cabannes-Hamy
(APHP)
- Etienne Lengliné
(Université Paris Cité)
- Ambroise Marçais
(Université Paris Cité
Université Paris Cité)
- Alexandre Théron
(Université de Montpellier)
- Grégoire Huré
(Université Paris Cité
Université Paris Cité)
- Jérome Doss
(Université Paris Cité
Université Paris Cité)
- Ivan Nemazanyy
(Université Paris Cité)
- Marie Émilie Dourthe
(Université Paris Cité
Université Paris Cité
Université Paris Cité)
- Nicolas Boissel
(Université Paris Cité)
- Hervé Dombret
(Université Paris Cité)
- Philippe Rousselot
(APHP)
- Olivier Hermine
(Université Paris Cité
Université Paris Cité)
- Vahid Asnafi
(Université Paris Cité
Université Paris Cité)
Abstract
The deregulated activation of the phosphoinositide 3-kinase (PI3K) pathway is a hallmark of aggressive tumors with metabolic plasticity, eliciting their adaptation to the microenvironment and resistance to chemotherapy. A significant gap lies between the biological features of PI3K-driven tumors and the specific targeting of their vulnerabilities. Here, we explore the metabolic liabilities of PI3K-altered T-cell acute lymphoblastic leukemia (T-ALL), an aggressive hematological cancer with dismal outcomes. We report a metabolic crosstalk linking glutaminolysis and glycolysis driven by PI3K signaling alterations. Pharmaceutical inhibition of mTOR reveals the singular plasticity of PI3K-altered cells toward the mobilization of glutamine as a salvage pathway to ensure their survival. Subsequently, the combination of glutamine degradation and mTOR inhibition demonstrates robust cytotoxicity in PI3K-driven solid and hematological tumors in pre-clinical and clinical settings. We propose a novel therapeutic strategy to circumvent metabolic adaptation and efficiently target PI3K-driven cancer.
Suggested Citation
Guillaume P. Andrieu & Mathieu Simonin & Aurélie Cabannes-Hamy & Etienne Lengliné & Ambroise Marçais & Alexandre Théron & Grégoire Huré & Jérome Doss & Ivan Nemazanyy & Marie Émilie Dourthe & Nicolas , 2025.
"A metabolic synthetic lethality of phosphoinositide 3-kinase-driven cancer,"
Nature Communications, Nature, vol. 16(1), pages 1-15, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-57225-7
DOI: 10.1038/s41467-025-57225-7
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