Resistance to BRAF inhibitors induces glutamine dependency in melanoma cells

Franziska Baenke; Barbara Chaneton; Matthew Smith; Niels Van Den Broek; Kate Hogan; Haoran Tang; Amaya Viros; Matthew Martin; Laura Galbraith; Maria R. Girotti; Nathalie Dhomen; Eyal Gottlie; Richard Marais

doi:10.1016/j.molonc.2015.08.003

Resistance to BRAF inhibitors induces glutamine dependency in melanoma cells

Franziska Baenke, Barbara Chaneton, Matthew Smith, Niels Van Den Broek, Kate Hogan, Haoran Tang, Amaya Viros, Matthew Martin, Laura Galbraith, Maria R. Girotti, Nathalie Dhomen, Eyal Gottlie, Richard Marais

Cancer Research UK Manchester Institute

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

Abstract

BRAF inhibitors can extend progression-free and overall survival in melanoma patients whose tumors harbor mutations in BRAF. However, the majority of patients eventually develop resistance to these drugs. Here we show that BRAF mutant melanoma cells that have developed acquired resistance to BRAF inhibitors display increased oxidative metabolism and increased dependency on mitochondria for survival. Intriguingly, the increased oxidative metabolism is associated with a switch from glucose to glutamine metabolism and an increased dependence on glutamine over glucose for proliferation. We show that the resistant cells are more sensitive to mitochondrial poisons and to inhibitors of glutaminolysis, suggesting that targeting specific metabolic pathways may offer exciting therapeutic opportunities to treat resistant tumors, or to delay emergence of resistance in the first-line setting.

Original language	English
Journal	Molecular Oncology
DOIs	https://doi.org/10.1016/j.molonc.2015.08.003
Publication status	Published - Aug 2015

Keywords

BRAF; Resistance; Melanoma; Metabolism; Glutaminolysis

Research Beacons, Institutes and Platforms

Manchester Cancer Research Centre

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.molonc.2015.08.003

Cite this

@article{33cda9ba28fd4f0da7a194598e9c7d2a,

title = "Resistance to BRAF inhibitors induces glutamine dependency in melanoma cells",

abstract = "BRAF inhibitors can extend progression-free and overall survival in melanoma patients whose tumors harbor mutations in BRAF. However, the majority of patients eventually develop resistance to these drugs. Here we show that BRAF mutant melanoma cells that have developed acquired resistance to BRAF inhibitors display increased oxidative metabolism and increased dependency on mitochondria for survival. Intriguingly, the increased oxidative metabolism is associated with a switch from glucose to glutamine metabolism and an increased dependence on glutamine over glucose for proliferation. We show that the resistant cells are more sensitive to mitochondrial poisons and to inhibitors of glutaminolysis, suggesting that targeting specific metabolic pathways may offer exciting therapeutic opportunities to treat resistant tumors, or to delay emergence of resistance in the first-line setting.",

keywords = "BRAF; Resistance; Melanoma; Metabolism; Glutaminolysis",

author = "Franziska Baenke and Barbara Chaneton and Matthew Smith and Broek, {Niels Van Den} and Kate Hogan and Haoran Tang and Amaya Viros and Matthew Martin and Laura Galbraith and Girotti, {Maria R.} and Nathalie Dhomen and Eyal Gottlie and Richard Marais",

year = "2015",

month = aug,

doi = "10.1016/j.molonc.2015.08.003",

language = "English",

journal = "Molecular Oncology",

issn = "1574-7891",

publisher = "John Wiley & Sons Ltd",

}

TY - JOUR

T1 - Resistance to BRAF inhibitors induces glutamine dependency in melanoma cells

AU - Baenke, Franziska

AU - Chaneton, Barbara

AU - Smith, Matthew

AU - Broek, Niels Van Den

AU - Hogan, Kate

AU - Tang, Haoran

AU - Viros, Amaya

AU - Martin, Matthew

AU - Galbraith, Laura

AU - Girotti, Maria R.

AU - Dhomen, Nathalie

AU - Gottlie, Eyal

AU - Marais, Richard

PY - 2015/8

Y1 - 2015/8

N2 - BRAF inhibitors can extend progression-free and overall survival in melanoma patients whose tumors harbor mutations in BRAF. However, the majority of patients eventually develop resistance to these drugs. Here we show that BRAF mutant melanoma cells that have developed acquired resistance to BRAF inhibitors display increased oxidative metabolism and increased dependency on mitochondria for survival. Intriguingly, the increased oxidative metabolism is associated with a switch from glucose to glutamine metabolism and an increased dependence on glutamine over glucose for proliferation. We show that the resistant cells are more sensitive to mitochondrial poisons and to inhibitors of glutaminolysis, suggesting that targeting specific metabolic pathways may offer exciting therapeutic opportunities to treat resistant tumors, or to delay emergence of resistance in the first-line setting.

AB - BRAF inhibitors can extend progression-free and overall survival in melanoma patients whose tumors harbor mutations in BRAF. However, the majority of patients eventually develop resistance to these drugs. Here we show that BRAF mutant melanoma cells that have developed acquired resistance to BRAF inhibitors display increased oxidative metabolism and increased dependency on mitochondria for survival. Intriguingly, the increased oxidative metabolism is associated with a switch from glucose to glutamine metabolism and an increased dependence on glutamine over glucose for proliferation. We show that the resistant cells are more sensitive to mitochondrial poisons and to inhibitors of glutaminolysis, suggesting that targeting specific metabolic pathways may offer exciting therapeutic opportunities to treat resistant tumors, or to delay emergence of resistance in the first-line setting.

KW - BRAF; Resistance; Melanoma; Metabolism; Glutaminolysis

U2 - 10.1016/j.molonc.2015.08.003

DO - 10.1016/j.molonc.2015.08.003

M3 - Article

SN - 1574-7891

JO - Molecular Oncology

JF - Molecular Oncology

ER -

Resistance to BRAF inhibitors induces glutamine dependency in melanoma cells

Abstract

Keywords

Research Beacons, Institutes and Platforms

UN SDGs

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