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Limited Environmental Serine Confers Sensitivity to PHGDH Inhibition in Brain Metastasis
Limited Environmental Serine Confers Sensitivity to PHGDH Inhibition in Brain Metastasis
by Pacold, Michael E. , Doll, Sophia , Cantley, Lewis C. , Davidson, Shawn M. , Kim, Eugenie , Sabatini, David M. , Hernando, Eva , Mann, Matthias , Snuderl, Matija , Ngo, Bryan , Bacha, Sarah , Osorio-Vasquez, Victoria , Zhao, Jean J. , Bustraan, Sophia , Ali, Ahmed , Kang, Diane , Manfredi, Mark , Ni, Jing , Siriam, Roshan K. , Liang, Roger , Mainolfi, Nello , Jain, Rakesh K. , Eskandari, Roozbeh , Yu, Min , Luengo, Alba , Kastenhuber, Edward R. , Mullarky, Edouard , Suri, Vipin , Ferraro, Gino D. , Cotzia, Paolo , Jones, Drew , Vander Heiden, Matthew G. , Bakhoum, Samuel F. , Friedman, Adam , Plasger, Ariana
in Cancer Biology
2020
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Limited Environmental Serine Confers Sensitivity to PHGDH Inhibition in Brain Metastasis
by Pacold, Michael E. , Doll, Sophia , Cantley, Lewis C. , Davidson, Shawn M. , Kim, Eugenie , Sabatini, David M. , Hernando, Eva , Mann, Matthias , Snuderl, Matija , Ngo, Bryan , Bacha, Sarah , Osorio-Vasquez, Victoria , Zhao, Jean J. , Bustraan, Sophia , Ali, Ahmed , Kang, Diane , Manfredi, Mark , Ni, Jing , Siriam, Roshan K. , Liang, Roger , Mainolfi, Nello , Jain, Rakesh K. , Eskandari, Roozbeh , Yu, Min , Luengo, Alba , Kastenhuber, Edward R. , Mullarky, Edouard , Suri, Vipin , Ferraro, Gino D. , Cotzia, Paolo , Jones, Drew , Vander Heiden, Matthew G. , Bakhoum, Samuel F. , Friedman, Adam , Plasger, Ariana
in Cancer Biology
2020
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Limited Environmental Serine Confers Sensitivity to PHGDH Inhibition in Brain Metastasis
Limited Environmental Serine Confers Sensitivity to PHGDH Inhibition in Brain Metastasis
by Pacold, Michael E. , Doll, Sophia , Cantley, Lewis C. , Davidson, Shawn M. , Kim, Eugenie , Sabatini, David M. , Hernando, Eva , Mann, Matthias , Snuderl, Matija , Ngo, Bryan , Bacha, Sarah , Osorio-Vasquez, Victoria , Zhao, Jean J. , Bustraan, Sophia , Ali, Ahmed , Kang, Diane , Manfredi, Mark , Ni, Jing , Siriam, Roshan K. , Liang, Roger , Mainolfi, Nello , Jain, Rakesh K. , Eskandari, Roozbeh , Yu, Min , Luengo, Alba , Kastenhuber, Edward R. , Mullarky, Edouard , Suri, Vipin , Ferraro, Gino D. , Cotzia, Paolo , Jones, Drew , Vander Heiden, Matthew G. , Bakhoum, Samuel F. , Friedman, Adam , Plasger, Ariana
in Cancer Biology
2020

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Limited Environmental Serine Confers Sensitivity to PHGDH Inhibition in Brain Metastasis
Limited Environmental Serine Confers Sensitivity to PHGDH Inhibition in Brain Metastasis
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Limited Environmental Serine Confers Sensitivity to PHGDH Inhibition in Brain Metastasis

Pacold, Michael E.,
Doll, Sophia,
Cantley, Lewis C.,
Davidson, Shawn M.,
Kim, Eugenie,
Sabatini, David M.,
Hernando, Eva,
Mann, Matthias,
Snuderl, Matija,
Ngo, Bryan,
Bacha, Sarah,
Osorio-Vasquez, Victoria,
Zhao, Jean J.,
Bustraan, Sophia,
Ali, Ahmed,
Kang, Diane,
Manfredi, Mark,
Ni, Jing,
Siriam, Roshan K.,
Liang, Roger,
Mainolfi, Nello,
Jain, Rakesh K.,
Eskandari, Roozbeh,
Yu, Min,
Luengo, Alba,
Kastenhuber, Edward R.,
Mullarky, Edouard,
Suri, Vipin,
Ferraro, Gino D.,
Cotzia, Paolo,
Jones, Drew,
Vander Heiden, Matthew G.,
Bakhoum, Samuel F.,
Friedman, Adam,
Plasger, Ariana
2020
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Overview
A hallmark of metastasis is the adaptation of tumor cells to new environments. Although it is well established that the metabolic milieu of the brain is severely deprived of nutrients, particularly the amino acids serine and its catabolite glycine, how brain metastases rewire their metabolism to survive in the nutrient-limited environment of the brain is poorly understood. Here we demonstrate that cell-intrinsic de novo serine synthesis is a major determinant of brain metastasis. Whole proteome comparison of triple-negative breast cancer (TNBC) cells that differ in their capacity to colonize the brain reveals that 3-phosphoglycerate dehydrogenase (PHGDH), which catalyzes the rate-limiting step of glucose-derived serine synthesis, is the most significantly upregulated protein in cells that efficiently metastasize to the brain. Genetic silencing or pharmacological inhibition of PHGDH attenuated brain metastasis and improved overall survival in mice, whereas expression of catalytically active PHGDH in a non-brain trophic cell line promoted brain metastasis. Collectively, these findings indicate that nutrient availability determines serine synthesis pathway dependence in brain metastasis, and suggest that PHGDH inhibitors may be useful in the treatment of patients with cancers that have spread to the brain. Our study highlights how limited serine and glycine availability within the brain microenvironment potentiates tumor cell sensitivity to serine synthesis inhibition. This finding underscores the importance of studying cancer metabolism in physiologically-relevant contexts, and provides a rationale for using PHGDH inhibitors to treat brain metastasis.
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Publisher
Cold Spring Harbor Laboratory
Subject

Cancer Biology

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