Literature DB >> 29109155

Temporal fluxomics reveals oscillations in TCA cycle flux throughout the mammalian cell cycle.

Eunyong Ahn1, Praveen Kumar2, Dzmitry Mukha2, Amit Tzur3,4, Tomer Shlomi5,2,6.   

Abstract

Cellular metabolic demands change throughout the cell cycle. Nevertheless, a characterization of how metabolic fluxes adapt to the changing demands throughout the cell cycle is lacking. Here, we developed a temporal-fluxomics approach to derive a comprehensive and quantitative view of alterations in metabolic fluxes throughout the mammalian cell cycle. This is achieved by combining pulse-chase LC-MS-based isotope tracing in synchronized cell populations with computational deconvolution and metabolic flux modeling. We find that TCA cycle fluxes are rewired as cells progress through the cell cycle with complementary oscillations of glucose versus glutamine-derived fluxes: Oxidation of glucose-derived flux peaks in late G1 phase, while oxidative and reductive glutamine metabolism dominates S phase. These complementary flux oscillations maintain a constant production rate of reducing equivalents and oxidative phosphorylation flux throughout the cell cycle. The shift from glucose to glutamine oxidation in S phase plays an important role in cell cycle progression and cell proliferation.
© 2017 The Authors. Published under the terms of the CC BY 4.0 license.

Entities:  

Keywords:  LC‐MS; cell cycle; cellular metabolism; isotope tracing; metabolic flux analysis

Mesh:

Substances:

Year:  2017        PMID: 29109155      PMCID: PMC5731346          DOI: 10.15252/msb.20177763

Source DB:  PubMed          Journal:  Mol Syst Biol        ISSN: 1744-4292            Impact factor:   11.429


Appendix Click here for additional data file. Dataset EV1 Click here for additional data file. Dataset EV2 Click here for additional data file. Dataset EV3 Click here for additional data file. Review Process File Click here for additional data file.
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10.  Temporal fluxomics reveals oscillations in TCA cycle flux throughout the mammalian cell cycle.

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