Oxidative phosphorylation is a metabolic vulnerability of endocrine therapy and palbociclib resistant metastatic breast cancers

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; Sophie Vacher; Julien Masliah-Planchon; Virginie Raynal; Sylvain Baulande; Thibaut Larcher; Anne Vincent-Salomon; Guillaume Dutertre; Paul Cottu; Géraldine Gentric; Fatima Mechta-Grigoriou; Scott Hutton; Keltouma Driouch; Ivan Bièche; Andrea Morandi; Elisabetta Marangoni

doi:10.1038/s41467-023-40022-5

Nature Communications (Jul 2023)

Oxidative phosphorylation is a metabolic vulnerability of endocrine therapy and palbociclib resistant metastatic breast cancers

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,
Sophie Vacher,
Julien Masliah-Planchon,
Virginie Raynal,
Sylvain Baulande,
Thibaut Larcher,
Anne Vincent-Salomon,
Guillaume Dutertre,
Paul Cottu,
Géraldine Gentric,
Fatima Mechta-Grigoriou,
Scott Hutton,
Keltouma Driouch,
Ivan Bièche,
Andrea Morandi,
Elisabetta Marangoni

Affiliations

Rania El-Botty: Laboratory of Preclinical Investigation, Translational Research Department, Institut Curie, PSL University
Ludivine Morriset: Laboratory of Preclinical Investigation, Translational Research Department, Institut Curie, PSL University
Elodie Montaudon: Laboratory of Preclinical Investigation, Translational Research Department, Institut Curie, PSL University
Zakia Tariq: Department of Genetics, Institut Curie, PSL University
Anne Schnitzler: Department of Genetics, Institut Curie, PSL University
Marina Bacci: Dept. of Experimental and Clinical Biomedical Sciences, Viale Morgagni, 50 - 50134
Nicla Lorito: Dept. of Experimental and Clinical Biomedical Sciences, Viale Morgagni, 50 - 50134
Laura Sourd: Laboratory of Preclinical Investigation, Translational Research Department, Institut Curie, PSL University
Léa Huguet: Laboratory of Preclinical Investigation, Translational Research Department, Institut Curie, PSL University
Ahmed Dahmani: Laboratory of Preclinical Investigation, Translational Research Department, Institut Curie, PSL University
Pierre Painsec: Laboratory of Preclinical Investigation, Translational Research Department, Institut Curie, PSL University
Heloise Derrien: Laboratory of Preclinical Investigation, Translational Research Department, Institut Curie, PSL University
Sophie Vacher: Department of Genetics, Institut Curie, PSL University
Julien Masliah-Planchon: Department of Genetics, Institut Curie, PSL University
Virginie Raynal: ICGex - NGS platform, Institut Curie, PSL University
Sylvain Baulande: ICGex - NGS platform, Institut Curie, PSL University
Thibaut Larcher: INRA, APEX-PAnTher, Oniris
Anne Vincent-Salomon: Department of Pathology, Institut Curie, PSL University
Guillaume Dutertre: Department of Surgery, Institut Curie, PSL University
Paul Cottu: Department of Medical Oncology, Institut Curie, PSL University
Géraldine Gentric: “Stress and Cancer” Laboratory, Institut Curie - Inserm U830, PSL University
Fatima Mechta-Grigoriou: “Stress and Cancer” Laboratory, Institut Curie - Inserm U830, PSL University
Scott Hutton: Metabolon Inc.
Keltouma Driouch: Department of Genetics, Institut Curie, PSL University
Ivan Bièche: Department of Genetics, Institut Curie, PSL University
Andrea Morandi: Dept. of Experimental and Clinical Biomedical Sciences, Viale Morgagni, 50 - 50134
Elisabetta Marangoni: Laboratory of Preclinical Investigation, Translational Research Department, Institut Curie, PSL University

DOI: https://doi.org/10.1038/s41467-023-40022-5
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 16

Abstract

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Abstract Resistance to endocrine treatments and CDK4/6 inhibitors is considered a near-inevitability in most patients with estrogen receptor positive breast cancers (ER + BC). By genomic and metabolomics analyses of patients’ tumours, metastasis-derived patient-derived xenografts (PDX) and isogenic cell lines we demonstrate that a fraction of metastatic ER + BC is highly reliant on oxidative phosphorylation (OXPHOS). Treatment by the OXPHOS inhibitor IACS-010759 strongly inhibits tumour growth in multiple endocrine and palbociclib resistant PDX. Mutations in the PIK3CA/AKT1 genes are significantly associated with response to IACS-010759. At the metabolic level, in vivo response to IACS-010759 is associated with decreased levels of metabolites of the glutathione, glycogen and pentose phosphate pathways in treated tumours. In vitro, endocrine and palbociclib resistant cells show increased OXPHOS dependency and increased ROS levels upon IACS-010759 treatment. Finally, in ER + BC patients, high expression of OXPHOS associated genes predict poor prognosis. In conclusion, these results identify OXPHOS as a promising target for treatment resistant ER + BC patients.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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