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A diverse proteome is present and enzymatically active in metabolite extracts

Author

Listed:
  • Rachel (Rae) J. House

    (Van Andel Institute
    Van Andel Institute
    Van Andel Institute)

  • Molly T. Soper-Hopper

    (Van Andel Institute)

  • Michael P. Vincent

    (Van Andel Institute)

  • Abigail E. Ellis

    (Van Andel Institute)

  • Colt D. Capan

    (Van Andel Institute)

  • Zachary B. Madaj

    (Van Andel Institute)

  • Emily Wolfrum

    (Van Andel Institute)

  • Christine N. Isaguirre

    (Van Andel Institute)

  • Carlos D. Castello

    (Van Andel Institute)

  • Amy B. Johnson

    (Van Andel Institute)

  • Martha L. Escobar Galvis

    (Van Andel Institute)

  • Kelsey S. Williams

    (Van Andel Institute)

  • Hyoungjoo Lee

    (Van Andel Institute)

  • Ryan D. Sheldon

    (Van Andel Institute)

Abstract

Metabolite extraction is the critical first-step in metabolomics experiments, where it is generally regarded to inactivate and remove proteins. Here, arising from efforts to improve extraction conditions for polar metabolomics, we discover a proteomic landscape of over 1000 proteins within metabolite extracts. This is a ubiquitous feature across several common extraction and sample types. By combining post-resuspension stable isotope addition and enzyme inhibitors, we demonstrate in-extract metabolite interconversions due to residual transaminase activity. We extend these findings with untargeted metabolomics where we observe extensive protein-mediated metabolite changes, including in-extract formation of glutamate dipeptide and depletion of total glutathione. Finally, we present a simple extraction workflow that integrates 3 kDa filtration for protein removal as a superior method for polar metabolomics. In this work, we uncover a previously unrecognized, protein-mediated source of observer effects in metabolomics experiments with broad-reaching implications across all research fields using metabolomics and molecular metabolism.

Suggested Citation

  • Rachel (Rae) J. House & Molly T. Soper-Hopper & Michael P. Vincent & Abigail E. Ellis & Colt D. Capan & Zachary B. Madaj & Emily Wolfrum & Christine N. Isaguirre & Carlos D. Castello & Amy B. Johnson , 2024. "A diverse proteome is present and enzymatically active in metabolite extracts," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-50128-z
    DOI: 10.1038/s41467-024-50128-z
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    References listed on IDEAS

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    1. Inmaculada Martínez-Reyes & Luzivette Robles Cardona & Hyewon Kong & Karthik Vasan & Gregory S. McElroy & Marie Werner & Hermon Kihshen & Colleen R. Reczek & Samuel E. Weinberg & Peng Gao & Elizabeth , 2020. "Mitochondrial ubiquinol oxidation is necessary for tumour growth," Nature, Nature, vol. 585(7824), pages 288-292, September.
    2. Veronica L. Li & Yang He & Kévin Contrepois & Hailan Liu & Joon T. Kim & Amanda L. Wiggenhorn & Julia T. Tanzo & Alan Sheng-Hwa Tung & Xuchao Lyu & Peter-James H. Zushin & Robert S. Jansen & Basil Mic, 2022. "An exercise-inducible metabolite that suppresses feeding and obesity," Nature, Nature, vol. 606(7915), pages 785-790, June.
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