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Large-scale determination of absolute phosphorylation stoichiometries in human cells by motif-targeting quantitative proteomics

Author

Listed:
  • Chia-Feng Tsai

    (National Taiwan University
    Institute of Chemistry, Academia Sinica, 128 Academia Road, Section 2, Taipei 11529, Taiwan)

  • Yi-Ting Wang

    (Institute of Chemistry, Academia Sinica, 128 Academia Road, Section 2, Taipei 11529, Taiwan
    Chemical Biology and Molecular Biophysics Program, Taiwan International Graduate Program, Academia Sinica, 128 Academia Road, Section 2, Taipei 11529, Taiwan
    Institute of Biochemical Sciences, National Taiwan University)

  • Hsin-Yung Yen

    (Institute of Biochemical Sciences, National Taiwan University
    Genomics Research Center, Academia Sinica, 128 Academia Road, Section 2, Taipei 11529, Taiwan)

  • Chih-Chiang Tsou

    (University of Michigan Medical School)

  • Wei-Chi Ku

    (School of Medicine, Fu Jen Catholic University)

  • Pei-Yi Lin

    (Institute of Chemistry, Academia Sinica, 128 Academia Road, Section 2, Taipei 11529, Taiwan)

  • Hsuan-Yu Chen

    (Institute of Statistical Science, Academia Sinica, 128 Academia Road, Section 2, Taipei 11529, Taiwan)

  • Alexey I. Nesvizhskii

    (University of Michigan Medical School)

  • Yasushi Ishihama

    (Graduate School of Pharmaceutical Sciences, Kyoto University)

  • Yu-Ju Chen

    (National Taiwan University
    Institute of Chemistry, Academia Sinica, 128 Academia Road, Section 2, Taipei 11529, Taiwan
    Chemical Biology and Molecular Biophysics Program, Taiwan International Graduate Program, Academia Sinica, 128 Academia Road, Section 2, Taipei 11529, Taiwan)

Abstract

Our ability to model the dynamics of signal transduction networks will depend on accurate methods to quantify levels of protein phosphorylation on a global scale. Here we describe a motif-targeting quantitation method for phosphorylation stoichiometry typing. Proteome-wide phosphorylation stoichiometry can be obtained by a simple phosphoproteomic workflow integrating dephosphorylation and isotope tagging with enzymatic kinase reaction. Proof-of-concept experiments using CK2-, MAPK- and EGFR-targeting assays in lung cancer cells demonstrate the advantage of kinase-targeted complexity reduction, resulting in deeper phosphoproteome quantification. We measure the phosphorylation stoichiometry of >1,000 phosphorylation sites including 366 low-abundance tyrosine phosphorylation sites, with high reproducibility and using small sample sizes. Comparing drug-resistant and sensitive lung cancer cells, we reveal that post-translational phosphorylation changes are significantly more dramatic than those at the protein and messenger RNA levels, and suggest potential drug targets within the kinase–substrate network associated with acquired drug resistance.

Suggested Citation

  • Chia-Feng Tsai & Yi-Ting Wang & Hsin-Yung Yen & Chih-Chiang Tsou & Wei-Chi Ku & Pei-Yi Lin & Hsuan-Yu Chen & Alexey I. Nesvizhskii & Yasushi Ishihama & Yu-Ju Chen, 2015. "Large-scale determination of absolute phosphorylation stoichiometries in human cells by motif-targeting quantitative proteomics," Nature Communications, Nature, vol. 6(1), pages 1-8, May.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms7622
    DOI: 10.1038/ncomms7622
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