Publication: mTORC1 Couples Nucleotide Synthesis to Nucleotide Demand Resulting in a Targetable Metabolic Vulnerability
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Date
2017-11-13
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Elsevier BV
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Citation
Valvezan, Alexander J., Marc Turner, Amine Belaid, Hilaire Lam, Spencer K. Miller, Molly Mcnamara, Christian Baglini et al. "mTORC1 Couples Nucleotide Synthesis to Nucleotide Demand Resulting in a Targetable Metabolic Vulnerability." Cancer Cell 32, no. 5 (2017): 624-638.e5. DOI: 10.1016/j.ccell.2017.09.013
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Abstract
The mechanistic target of rapamycin complex 1 (mTORC1) supports proliferation through parallel induction of key anabolic processes, including protein, lipid, and nucleotide synthesis. We hypothesized that these processes are coupled to maintain anabolic balance in cells with mTORC1 activation, a common event in human cancers. Loss of the tuberous sclerosis complex (TSC) tumor suppressors results in activation of mTORC1 and development of the tumor syndrome TSC. We find that pharmacological inhibitors of guanylate nucleotide synthesis have selective deleterious effects on TSC-deficient cells, including in mouse tumor models. This effect stems from replication stress and DNA damage caused by mTORC1-driven ribosomal RNA synthesis, which renders nucleotide pools limiting. These findings reveal a metabolic vulnerability downstream of mTORC1 triggered by anabolic imbalance.
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Research Subject Categories::MEDICINE::Morphology, cell biology, pathology::Morphology::Tumour biology, Research Subject Categories::NATURAL SCIENCES::Biology::Cell and molecular biology
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