Mitochondrial metabolism supports resistance to IDH mutant inhibitors in acute myeloid leukemia

Lucille Stuani; Marie Sabatier; Estelle Saland; Guillaume Cognet; Nathalie Poupin; Claudie Bosc; Florence A. Castelli; Lara Gales; Evgenia Turtoi; Camille Montersino; Thomas Farge; Emeline Boet; Nicolas Broin; Clement Larrue; Natalia Baran; Madi Y. Cisse; Marc Conti; Sylvain Loric; Tony Kaoma; Alexis Hucteau; Aliki Zavoriti; Ambrine Sahal; Pierre Luc Mouchel; Mathilde Gotanègre; Cedric Cassan; Laurent Fernando; Feng Wang; Mohsen Hosseini; Emeline Chu-Van; Laurent Le Cam; Martin Carroll; Mary A. Selak; Norbert Vey; Remy Castellano; François Fenaille; Andrei Turtoi; Guillaume Cazals; Pierre Bories; Yves Gibon; Brandon Nicolay; Sebastien Ronseaux; Joseph R. Marszalek; Koichi Takahashi; Courtney D. DiNardo; Marina Konopleva; Vera Pancaldi; Yves Collette; Floriant Bellvert; Fabien Jourdan; Laetitia K. Linares; Christian Recher; Jean Charles Portais; Jean Emmanuel Sarry

doi:10.1084/jem.20200924

Mitochondrial metabolism supports resistance to IDH mutant inhibitors in acute myeloid leukemia

Lucille Stuani, Marie Sabatier, Estelle Saland, Guillaume Cognet, Nathalie Poupin, Claudie Bosc, Florence A. Castelli, Lara Gales, Evgenia Turtoi, Camille Montersino, Thomas Farge, Emeline Boet, Nicolas Broin, Clement Larrue, Natalia Baran, Madi Y. Cisse, Marc Conti, Sylvain Loric, Tony Kaoma, Alexis HucteauAliki Zavoriti, Ambrine Sahal, Pierre Luc Mouchel, Mathilde Gotanègre, Cedric Cassan, Laurent Fernando, Feng Wang, Mohsen Hosseini, Emeline Chu-Van, Laurent Le Cam, Martin Carroll, Mary A. Selak, Norbert Vey, Remy Castellano, François Fenaille, Andrei Turtoi, Guillaume Cazals, Pierre Bories, Yves Gibon, Brandon Nicolay, Sebastien Ronseaux, Joseph R. Marszalek, Koichi Takahashi, Courtney D. DiNardo, Marina Konopleva, Vera Pancaldi, Yves Collette, Floriant Bellvert, Fabien Jourdan, Laetitia K. Linares, Christian Recher, Jean Charles Portais, Jean Emmanuel Sarry

Leukemia

Research output: Contribution to journal › Article › peer-review

55 Scopus citations

Abstract

Mutations in IDH induce epigenetic and transcriptional reprogramming, differentiation bias, and susceptibility to mitochondrial inhibitors in cancer cells. Here, we first show that cell lines, PDXs, and patients with acute myeloid leukemia (AML) harboring an IDH mutation displayed an enhanced mitochondrial oxidative metabolism. Along with an increase in TCA cycle intermediates, this AML-specific metabolic behavior mechanistically occurred through the increase in electron transport chain complex I activity,mitochondrial respiration, and methylation-driven CEBPα-induced fatty acid β-oxidation of IDH1mutant cells.While IDH1 mutant inhibitor reduced 2-HG oncometabolite and CEBPα methylation, it failed to reverse FAO and OxPHOS. These mitochondrial activities were maintained through the inhibition of Akt and enhanced activation of peroxisome proliferator-activated receptor-γ coactivator-1 PGC1α upon IDH1 mutant inhibitor. Accordingly, OxPHOS inhibitors improved anti-AML efficacy of IDH mutant inhibitors in vivo. This work provides a scientific rationale for combinatory mitochondrialtargeted therapies to treat IDH mutant AML patients, especially those unresponsive to or relapsing from IDHmutant inhibitors.

Original language	English (US)
Article number	e20200924
Journal	Journal of Experimental Medicine
Volume	218
Issue number	5
DOIs	https://doi.org/10.1084/jem.20200924
State	Published - May 3 2021

ASJC Scopus subject areas

General Medicine

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Stuani, L., Sabatier, M., Saland, E., Cognet, G., Poupin, N., Bosc, C., Castelli, F. A., Gales, L., Turtoi, E., Montersino, C., Farge, T., Boet, E., Broin, N., Larrue, C., Baran, N., Cisse, M. Y., Conti, M., Loric, S., Kaoma, T., ... Sarry, J. E. (2021). Mitochondrial metabolism supports resistance to IDH mutant inhibitors in acute myeloid leukemia. Journal of Experimental Medicine, 218(5), Article e20200924. https://doi.org/10.1084/jem.20200924

Stuani, L, Sabatier, M, Saland, E, Cognet, G, Poupin, N, Bosc, C, Castelli, FA, Gales, L, Turtoi, E, Montersino, C, Farge, T, Boet, E, Broin, N, Larrue, C, Baran, N, Cisse, MY, Conti, M, Loric, S, Kaoma, T, Hucteau, A, Zavoriti, A, Sahal, A, Mouchel, PL, Gotanègre, M, Cassan, C, Fernando, L, Wang, F, Hosseini, M, Chu-Van, E, Cam, LL, Carroll, M, Selak, MA, Vey, N, Castellano, R, Fenaille, F, Turtoi, A, Cazals, G, Bories, P, Gibon, Y, Nicolay, B, Ronseaux, S, Marszalek, JR, Takahashi, K , DiNardo, CD, Konopleva, M, Pancaldi, V, Collette, Y, Bellvert, F, Jourdan, F, Linares, LK, Recher, C, Portais, JC & Sarry, JE 2021, 'Mitochondrial metabolism supports resistance to IDH mutant inhibitors in acute myeloid leukemia', Journal of Experimental Medicine, vol. 218, no. 5, e20200924. https://doi.org/10.1084/jem.20200924

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title = "Mitochondrial metabolism supports resistance to IDH mutant inhibitors in acute myeloid leukemia",

abstract = "Mutations in IDH induce epigenetic and transcriptional reprogramming, differentiation bias, and susceptibility to mitochondrial inhibitors in cancer cells. Here, we first show that cell lines, PDXs, and patients with acute myeloid leukemia (AML) harboring an IDH mutation displayed an enhanced mitochondrial oxidative metabolism. Along with an increase in TCA cycle intermediates, this AML-specific metabolic behavior mechanistically occurred through the increase in electron transport chain complex I activity,mitochondrial respiration, and methylation-driven CEBPα-induced fatty acid β-oxidation of IDH1mutant cells.While IDH1 mutant inhibitor reduced 2-HG oncometabolite and CEBPα methylation, it failed to reverse FAO and OxPHOS. These mitochondrial activities were maintained through the inhibition of Akt and enhanced activation of peroxisome proliferator-activated receptor-γ coactivator-1 PGC1α upon IDH1 mutant inhibitor. Accordingly, OxPHOS inhibitors improved anti-AML efficacy of IDH mutant inhibitors in vivo. This work provides a scientific rationale for combinatory mitochondrialtargeted therapies to treat IDH mutant AML patients, especially those unresponsive to or relapsing from IDHmutant inhibitors.",

author = "Lucille Stuani and Marie Sabatier and Estelle Saland and Guillaume Cognet and Nathalie Poupin and Claudie Bosc and Castelli, {Florence A.} and Lara Gales and Evgenia Turtoi and Camille Montersino and Thomas Farge and Emeline Boet and Nicolas Broin and Clement Larrue and Natalia Baran and Cisse, {Madi Y.} and Marc Conti and Sylvain Loric and Tony Kaoma and Alexis Hucteau and Aliki Zavoriti and Ambrine Sahal and Mouchel, {Pierre Luc} and Mathilde Gotan{\`e}gre and Cedric Cassan and Laurent Fernando and Feng Wang and Mohsen Hosseini and Emeline Chu-Van and Cam, {Laurent Le} and Martin Carroll and Selak, {Mary A.} and Norbert Vey and Remy Castellano and Fran{\c c}ois Fenaille and Andrei Turtoi and Guillaume Cazals and Pierre Bories and Yves Gibon and Brandon Nicolay and Sebastien Ronseaux and Marszalek, {Joseph R.} and Koichi Takahashi and DiNardo, {Courtney D.} and Marina Konopleva and Vera Pancaldi and Yves Collette and Floriant Bellvert and Fabien Jourdan and Linares, {Laetitia K.} and Christian Recher and Portais, {Jean Charles} and Sarry, {Jean Emmanuel}",

note = "Publisher Copyright: {\textcopyright} 2021 Stuani et al.",

year = "2021",

month = may,

day = "3",

doi = "10.1084/jem.20200924",

language = "English (US)",

volume = "218",

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T1 - Mitochondrial metabolism supports resistance to IDH mutant inhibitors in acute myeloid leukemia

AU - Stuani, Lucille

AU - Sabatier, Marie

AU - Saland, Estelle

AU - Cognet, Guillaume

AU - Poupin, Nathalie

AU - Bosc, Claudie

AU - Castelli, Florence A.

AU - Gales, Lara

AU - Turtoi, Evgenia

AU - Montersino, Camille

AU - Farge, Thomas

AU - Boet, Emeline

AU - Broin, Nicolas

AU - Larrue, Clement

AU - Baran, Natalia

AU - Cisse, Madi Y.

AU - Conti, Marc

AU - Loric, Sylvain

AU - Kaoma, Tony

AU - Hucteau, Alexis

AU - Zavoriti, Aliki

AU - Sahal, Ambrine

AU - Mouchel, Pierre Luc

AU - Gotanègre, Mathilde

AU - Cassan, Cedric

AU - Fernando, Laurent

AU - Wang, Feng

AU - Hosseini, Mohsen

AU - Chu-Van, Emeline

AU - Cam, Laurent Le

AU - Carroll, Martin

AU - Selak, Mary A.

AU - Vey, Norbert

AU - Castellano, Remy

AU - Fenaille, François

AU - Turtoi, Andrei

AU - Cazals, Guillaume

AU - Bories, Pierre

AU - Gibon, Yves

AU - Nicolay, Brandon

AU - Ronseaux, Sebastien

AU - Marszalek, Joseph R.

AU - Takahashi, Koichi

AU - DiNardo, Courtney D.

AU - Konopleva, Marina

AU - Pancaldi, Vera

AU - Collette, Yves

AU - Bellvert, Floriant

AU - Jourdan, Fabien

AU - Linares, Laetitia K.

AU - Recher, Christian

AU - Portais, Jean Charles

AU - Sarry, Jean Emmanuel

PY - 2021/5/3

Y1 - 2021/5/3

N2 - Mutations in IDH induce epigenetic and transcriptional reprogramming, differentiation bias, and susceptibility to mitochondrial inhibitors in cancer cells. Here, we first show that cell lines, PDXs, and patients with acute myeloid leukemia (AML) harboring an IDH mutation displayed an enhanced mitochondrial oxidative metabolism. Along with an increase in TCA cycle intermediates, this AML-specific metabolic behavior mechanistically occurred through the increase in electron transport chain complex I activity,mitochondrial respiration, and methylation-driven CEBPα-induced fatty acid β-oxidation of IDH1mutant cells.While IDH1 mutant inhibitor reduced 2-HG oncometabolite and CEBPα methylation, it failed to reverse FAO and OxPHOS. These mitochondrial activities were maintained through the inhibition of Akt and enhanced activation of peroxisome proliferator-activated receptor-γ coactivator-1 PGC1α upon IDH1 mutant inhibitor. Accordingly, OxPHOS inhibitors improved anti-AML efficacy of IDH mutant inhibitors in vivo. This work provides a scientific rationale for combinatory mitochondrialtargeted therapies to treat IDH mutant AML patients, especially those unresponsive to or relapsing from IDHmutant inhibitors.

AB - Mutations in IDH induce epigenetic and transcriptional reprogramming, differentiation bias, and susceptibility to mitochondrial inhibitors in cancer cells. Here, we first show that cell lines, PDXs, and patients with acute myeloid leukemia (AML) harboring an IDH mutation displayed an enhanced mitochondrial oxidative metabolism. Along with an increase in TCA cycle intermediates, this AML-specific metabolic behavior mechanistically occurred through the increase in electron transport chain complex I activity,mitochondrial respiration, and methylation-driven CEBPα-induced fatty acid β-oxidation of IDH1mutant cells.While IDH1 mutant inhibitor reduced 2-HG oncometabolite and CEBPα methylation, it failed to reverse FAO and OxPHOS. These mitochondrial activities were maintained through the inhibition of Akt and enhanced activation of peroxisome proliferator-activated receptor-γ coactivator-1 PGC1α upon IDH1 mutant inhibitor. Accordingly, OxPHOS inhibitors improved anti-AML efficacy of IDH mutant inhibitors in vivo. This work provides a scientific rationale for combinatory mitochondrialtargeted therapies to treat IDH mutant AML patients, especially those unresponsive to or relapsing from IDHmutant inhibitors.

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U2 - 10.1084/jem.20200924

DO - 10.1084/jem.20200924

M3 - Article

C2 - 33760042

AN - SCOPUS:85103606986

SN - 0022-1007

VL - 218

JO - Journal of Experimental Medicine

JF - Journal of Experimental Medicine

IS - 5

M1 - e20200924

ER -

Mitochondrial metabolism supports resistance to IDH mutant inhibitors in acute myeloid leukemia

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