Mitochondrial MDM2 Regulates Respiratory Complex I Activity Independently of p53

Giuseppe Arena; Madi Yann Cissé; Samuel Pyrdziak; Laurent Chatre; Romain Riscal; Maryse Fuentes; Jamie Jon Arnold; Markus Kastner; Laurie Gayte; Christelle Bertrand-Gaday; Kevin Nay; Claire Angebault-Prouteau; Kerren Murray; Beatrice Chabi; Christelle Koechlin-Ramonatxo; Béatrice Orsetti; Charles Vincent; François Casas; Jean Christophe Marine; Sandrine Etienne-Manneville; Florence Bernex; Anne Lombès; Craig Eugene Cameron; Hervé Dubouchaud; Miria Ricchetti; Laetitia Karine Linares; Laurent Le Cam

doi:10.1016/j.molcel.2018.01.023

Mitochondrial MDM2 Regulates Respiratory Complex I Activity Independently of p53

Giuseppe Arena, Madi Yann Cissé, Samuel Pyrdziak, Laurent Chatre, Romain Riscal, Maryse Fuentes, Jamie Jon Arnold, Markus Kastner, Laurie Gayte, Christelle Bertrand-Gaday, Kevin Nay, Claire Angebault-Prouteau, Kerren Murray, Beatrice Chabi, Christelle Koechlin-Ramonatxo, Béatrice Orsetti, Charles Vincent, François Casas, Jean Christophe Marine, Sandrine Etienne-MannevilleFlorence Bernex, Anne Lombès, Craig Eugene Cameron, Hervé Dubouchaud, Miria Ricchetti, Laetitia Karine Linares, Laurent Le Cam

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

72 Scopus citations

Abstract

Accumulating evidence indicates that the MDM2 oncoprotein promotes tumorigenesis beyond its canonical negative effects on the p53 tumor suppressor, but these p53-independent functions remain poorly understood. Here, we show that a fraction of endogenous MDM2 is actively imported in mitochondria to control respiration and mitochondrial dynamics independently of p53. Mitochondrial MDM2 represses the transcription of NADH-dehydrogenase 6 (MT-ND6) in vitro and in vivo, impinging on respiratory complex I activity and enhancing mitochondrial ROS production. Recruitment of MDM2 to mitochondria increases during oxidative stress and hypoxia. Accordingly, mice lacking MDM2 in skeletal muscles exhibit higher MT-ND6 levels, enhanced complex I activity, and increased muscular endurance in mild hypoxic conditions. Furthermore, increased mitochondrial MDM2 levels enhance the migratory and invasive properties of cancer cells. Collectively, these data uncover a previously unsuspected function of the MDM2 oncoprotein in mitochondria that play critical roles in skeletal muscle physiology and may contribute to tumor progression. Arena et al. show that the proto-oncogene MDM2 is recruited to mitochondria independently of its well-known partner p53. By repressing transcription of a specific subunit of the electron transport chain encoded by the mitochondrial genome, mitochondrial MDM2 controls respiration, influencing skeletal muscle function and cancer cell migration.

Original language	English (US)
Pages (from-to)	594-609.e8
Journal	Molecular cell
Volume	69
Issue number	4
DOIs	https://doi.org/10.1016/j.molcel.2018.01.023
State	Published - Feb 15 2018

All Science Journal Classification (ASJC) codes

Molecular Biology
Cell Biology

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10.1016/j.molcel.2018.01.023

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Arena, G., Cissé, M. Y., Pyrdziak, S., Chatre, L., Riscal, R., Fuentes, M., Arnold, J. J., Kastner, M., Gayte, L., Bertrand-Gaday, C., Nay, K., Angebault-Prouteau, C., Murray, K., Chabi, B., Koechlin-Ramonatxo, C., Orsetti, B., Vincent, C., Casas, F., Marine, J. C., ... Le Cam, L. (2018). Mitochondrial MDM2 Regulates Respiratory Complex I Activity Independently of p53. Molecular cell, 69(4), 594-609.e8. https://doi.org/10.1016/j.molcel.2018.01.023

@article{50afe297ae4a42fcb9af8878ab54c722,

title = "Mitochondrial MDM2 Regulates Respiratory Complex I Activity Independently of p53",

abstract = "Accumulating evidence indicates that the MDM2 oncoprotein promotes tumorigenesis beyond its canonical negative effects on the p53 tumor suppressor, but these p53-independent functions remain poorly understood. Here, we show that a fraction of endogenous MDM2 is actively imported in mitochondria to control respiration and mitochondrial dynamics independently of p53. Mitochondrial MDM2 represses the transcription of NADH-dehydrogenase 6 (MT-ND6) in vitro and in vivo, impinging on respiratory complex I activity and enhancing mitochondrial ROS production. Recruitment of MDM2 to mitochondria increases during oxidative stress and hypoxia. Accordingly, mice lacking MDM2 in skeletal muscles exhibit higher MT-ND6 levels, enhanced complex I activity, and increased muscular endurance in mild hypoxic conditions. Furthermore, increased mitochondrial MDM2 levels enhance the migratory and invasive properties of cancer cells. Collectively, these data uncover a previously unsuspected function of the MDM2 oncoprotein in mitochondria that play critical roles in skeletal muscle physiology and may contribute to tumor progression. Arena et al. show that the proto-oncogene MDM2 is recruited to mitochondria independently of its well-known partner p53. By repressing transcription of a specific subunit of the electron transport chain encoded by the mitochondrial genome, mitochondrial MDM2 controls respiration, influencing skeletal muscle function and cancer cell migration.",

author = "Giuseppe Arena and Ciss{\'e}, {Madi Yann} and Samuel Pyrdziak and Laurent Chatre and Romain Riscal and Maryse Fuentes and Arnold, {Jamie Jon} and Markus Kastner and Laurie Gayte and Christelle Bertrand-Gaday and Kevin Nay and Claire Angebault-Prouteau and Kerren Murray and Beatrice Chabi and Christelle Koechlin-Ramonatxo and B{\'e}atrice Orsetti and Charles Vincent and Fran{\c c}ois Casas and Marine, {Jean Christophe} and Sandrine Etienne-Manneville and Florence Bernex and Anne Lomb{\`e}s and Cameron, {Craig Eugene} and Herv{\'e} Dubouchaud and Miria Ricchetti and Linares, {Laetitia Karine} and {Le Cam}, Laurent",

note = "Publisher Copyright: {\textcopyright} 2018 Elsevier Inc.",

year = "2018",

month = feb,

day = "15",

doi = "10.1016/j.molcel.2018.01.023",

language = "English (US)",

volume = "69",

pages = "594--609.e8",

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Arena, G, Cissé, MY, Pyrdziak, S, Chatre, L, Riscal, R, Fuentes, M, Arnold, JJ, Kastner, M, Gayte, L, Bertrand-Gaday, C, Nay, K, Angebault-Prouteau, C, Murray, K, Chabi, B, Koechlin-Ramonatxo, C, Orsetti, B, Vincent, C, Casas, F, Marine, JC, Etienne-Manneville, S, Bernex, F, Lombès, A, Cameron, CE, Dubouchaud, H, Ricchetti, M, Linares, LK & Le Cam, L 2018, 'Mitochondrial MDM2 Regulates Respiratory Complex I Activity Independently of p53', Molecular cell, vol. 69, no. 4, pp. 594-609.e8. https://doi.org/10.1016/j.molcel.2018.01.023

TY - JOUR

T1 - Mitochondrial MDM2 Regulates Respiratory Complex I Activity Independently of p53

AU - Arena, Giuseppe

AU - Cissé, Madi Yann

AU - Pyrdziak, Samuel

AU - Chatre, Laurent

AU - Riscal, Romain

AU - Fuentes, Maryse

AU - Arnold, Jamie Jon

AU - Kastner, Markus

AU - Gayte, Laurie

AU - Bertrand-Gaday, Christelle

AU - Nay, Kevin

AU - Angebault-Prouteau, Claire

AU - Murray, Kerren

AU - Chabi, Beatrice

AU - Koechlin-Ramonatxo, Christelle

AU - Orsetti, Béatrice

AU - Vincent, Charles

AU - Casas, François

AU - Marine, Jean Christophe

AU - Etienne-Manneville, Sandrine

AU - Bernex, Florence

AU - Lombès, Anne

AU - Cameron, Craig Eugene

AU - Dubouchaud, Hervé

AU - Ricchetti, Miria

AU - Linares, Laetitia Karine

AU - Le Cam, Laurent

PY - 2018/2/15

Y1 - 2018/2/15

N2 - Accumulating evidence indicates that the MDM2 oncoprotein promotes tumorigenesis beyond its canonical negative effects on the p53 tumor suppressor, but these p53-independent functions remain poorly understood. Here, we show that a fraction of endogenous MDM2 is actively imported in mitochondria to control respiration and mitochondrial dynamics independently of p53. Mitochondrial MDM2 represses the transcription of NADH-dehydrogenase 6 (MT-ND6) in vitro and in vivo, impinging on respiratory complex I activity and enhancing mitochondrial ROS production. Recruitment of MDM2 to mitochondria increases during oxidative stress and hypoxia. Accordingly, mice lacking MDM2 in skeletal muscles exhibit higher MT-ND6 levels, enhanced complex I activity, and increased muscular endurance in mild hypoxic conditions. Furthermore, increased mitochondrial MDM2 levels enhance the migratory and invasive properties of cancer cells. Collectively, these data uncover a previously unsuspected function of the MDM2 oncoprotein in mitochondria that play critical roles in skeletal muscle physiology and may contribute to tumor progression. Arena et al. show that the proto-oncogene MDM2 is recruited to mitochondria independently of its well-known partner p53. By repressing transcription of a specific subunit of the electron transport chain encoded by the mitochondrial genome, mitochondrial MDM2 controls respiration, influencing skeletal muscle function and cancer cell migration.

AB - Accumulating evidence indicates that the MDM2 oncoprotein promotes tumorigenesis beyond its canonical negative effects on the p53 tumor suppressor, but these p53-independent functions remain poorly understood. Here, we show that a fraction of endogenous MDM2 is actively imported in mitochondria to control respiration and mitochondrial dynamics independently of p53. Mitochondrial MDM2 represses the transcription of NADH-dehydrogenase 6 (MT-ND6) in vitro and in vivo, impinging on respiratory complex I activity and enhancing mitochondrial ROS production. Recruitment of MDM2 to mitochondria increases during oxidative stress and hypoxia. Accordingly, mice lacking MDM2 in skeletal muscles exhibit higher MT-ND6 levels, enhanced complex I activity, and increased muscular endurance in mild hypoxic conditions. Furthermore, increased mitochondrial MDM2 levels enhance the migratory and invasive properties of cancer cells. Collectively, these data uncover a previously unsuspected function of the MDM2 oncoprotein in mitochondria that play critical roles in skeletal muscle physiology and may contribute to tumor progression. Arena et al. show that the proto-oncogene MDM2 is recruited to mitochondria independently of its well-known partner p53. By repressing transcription of a specific subunit of the electron transport chain encoded by the mitochondrial genome, mitochondrial MDM2 controls respiration, influencing skeletal muscle function and cancer cell migration.

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DO - 10.1016/j.molcel.2018.01.023

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SN - 1097-2765

VL - 69

SP - 594-609.e8

JO - Molecular cell

JF - Molecular cell

IS - 4

ER -

Mitochondrial MDM2 Regulates Respiratory Complex I Activity Independently of p53

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