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Asparagine couples mitochondrial respiration to ATF4 activity and tumor growth.

Authors :
Krall, Abigail S
Krall, Abigail S
Mullen, Peter J
Surjono, Felicia
Momcilovic, Milica
Schmid, Ernst W
Halbrook, Christopher J
Thambundit, Apisadaporn
Mittelman, Steven D
Lyssiotis, Costas A
Shackelford, David B
Knott, Simon RV
Christofk, Heather R
Krall, Abigail S
Krall, Abigail S
Mullen, Peter J
Surjono, Felicia
Momcilovic, Milica
Schmid, Ernst W
Halbrook, Christopher J
Thambundit, Apisadaporn
Mittelman, Steven D
Lyssiotis, Costas A
Shackelford, David B
Knott, Simon RV
Christofk, Heather R
Source :
Cell metabolism; vol 33, iss 5, 1013-1026.e6; 1550-4131
Publication Year :
2021

Abstract

Mitochondrial respiration is critical for cell proliferation. In addition to producing ATP, respiration generates biosynthetic precursors, such as aspartate, an essential substrate for nucleotide synthesis. Here, we show that in addition to depleting intracellular aspartate, electron transport chain (ETC) inhibition depletes aspartate-derived asparagine, increases ATF4 levels, and impairs mTOR complex I (mTORC1) activity. Exogenous asparagine restores proliferation, ATF4 and mTORC1 activities, and mTORC1-dependent nucleotide synthesis in the context of ETC inhibition, suggesting that asparagine communicates active respiration to ATF4 and mTORC1. Finally, we show that combination of the ETC inhibitor metformin, which limits tumor asparagine synthesis, and either asparaginase or dietary asparagine restriction, which limit tumor asparagine consumption, effectively impairs tumor growth in multiple mouse models of cancer. Because environmental asparagine is sufficient to restore tumor growth in the context of respiration impairment, our findings suggest that asparagine synthesis is a fundamental purpose of tumor mitochondrial respiration, which can be harnessed for therapeutic benefit to cancer patients.

Details

Database :
OAIster
Journal :
Cell metabolism; vol 33, iss 5, 1013-1026.e6; 1550-4131
Notes :
application/pdf, Cell metabolism vol 33, iss 5, 1013-1026.e6 1550-4131
Publication Type :
Electronic Resource
Accession number :
edsoai.on1391595720
Document Type :
Electronic Resource