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Inhibition of mitochondrial complex I reverses NOTCH1-driven metabolic reprogramming in T-cell acute lymphoblastic leukemia
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Abstract
T-cell acute lymphoblastic leukemia (T-ALL) is commonly driven by activating mutations in NOTCH1 that facilitate glutamine oxidation. Here we identify oxidative phosphorylation (OxPhos) as a critical pathway for leukemia cell survival and demonstrate a direct relationship between NOTCH1, elevated OxPhos gene expression, and acquired chemoresistance in pre-leukemic and leukemic models. Disrupting OxPhos with IACS-010759, an inhibitor of mitochondrial complex I, causes potent growth inhibition through induction of metabolic shut-down and redox imbalance in NOTCH1-mutated and less so in NOTCH1-wt T-ALL cells. Mechanistically, inhibition of OxPhos induces a metabolic reprogramming into glutaminolysis. We show that pharmacological blockade of OxPhos combined with inducible knock-down of glutaminase, the key glutamine enzyme, confers synthetic lethality in mice harboring NOTCH1-mutated T-ALL. We leverage on this synthetic lethal interaction to demonstrate that IACS-010759 in combination with chemotherapy containing L-asparaginase, an enzyme that uncovers the glutamine dependency of leukemic cells, causes reduced glutaminolysis and profound tumor reduction in pre-clinical models of human T-ALL. In summary, this metabolic dependency of T-ALL on OxPhos provides a rational therapeutic target.
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DOI: 10.1038/s41467-022-30396-3
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References listed on IDEAS
- Joshua M. Dempster & Clare Pacini & Sasha Pantel & Fiona M. Behan & Thomas Green & John Krill-Burger & Charlotte M. Beaver & Scott T. Younger & Victor Zhivich & Hanna Najgebauer & Felicity Allen & Ema, 2019. "Agreement between two large pan-cancer CRISPR-Cas9 gene dependency data sets," Nature Communications, Nature, vol. 10(1), pages 1-14, December.
- Sarah-Maria Fendt & Eric L. Bell & Mark A. Keibler & Benjamin A. Olenchock & Jared R. Mayers & Thomas M. Wasylenko & Natalie I. Vokes & Leonard Guarente & Matthew G. Vander Heiden & Gregory Stephanopo, 2013. "Reductive glutamine metabolism is a function of the α-ketoglutarate to citrate ratio in cells," Nature Communications, Nature, vol. 4(1), pages 1-11, October.
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- Rania El-Botty & Ludivine Morriset & Elodie Montaudon & Zakia Tariq & Anne Schnitzler & Marina Bacci & Nicla Lorito & Laura Sourd & Léa Huguet & Ahmed Dahmani & Pierre Painsec & Heloise Derrien & Soph, 2023. "Oxidative phosphorylation is a metabolic vulnerability of endocrine therapy and palbociclib resistant metastatic breast cancers," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
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