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Spatially interacting phosphorylation sites and mutations in cancer

Author

Listed:
  • Kuan-lin Huang

    (Icahn School of Medicine at Mount Sinai)

  • Adam D. Scott

    (Washington University in St. Louis)

  • Daniel Cui Zhou

    (Washington University in St. Louis)

  • Liang-Bo Wang

    (Washington University in St. Louis)

  • Amila Weerasinghe

    (Washington University in St. Louis)

  • Abdulkadir Elmas

    (Icahn School of Medicine at Mount Sinai)

  • Ruiyang Liu

    (Washington University in St. Louis)

  • Yige Wu

    (Washington University in St. Louis)

  • Michael C. Wendl

    (Washington University in St. Louis)

  • Matthew A. Wyczalkowski

    (Washington University in St. Louis)

  • Jessika Baral

    (Washington University in St. Louis)

  • Sohini Sengupta

    (Washington University in St. Louis)

  • Chin-Wen Lai

    (Washington University in St. Louis)

  • Kelly Ruggles

    (New York University School of Medicine)

  • Samuel H. Payne

    (Brigham Young University)

  • Benjamin Raphael

    (Princeton University)

  • David Fenyö

    (New York University School of Medicine)

  • Ken Chen

    (The University of Texas MD Anderson Cancer Center)

  • Gordon Mills

    (Oregon Health & Science University)

  • Li Ding

    (Washington University in St. Louis)

Abstract

Advances in mass-spectrometry have generated increasingly large-scale proteomics datasets containing tens of thousands of phosphorylation sites (phosphosites) that require prioritization. We develop a bioinformatics tool called HotPho and systematically discover 3D co-clustering of phosphosites and cancer mutations on protein structures. HotPho identifies 474 such hybrid clusters containing 1255 co-clustering phosphosites, including RET p.S904/Y928, the conserved HRAS/KRAS p.Y96, and IDH1 p.Y139/IDH2 p.Y179 that are adjacent to recurrent mutations on protein structures not found by linear proximity approaches. Hybrid clusters, enriched in histone and kinase domains, frequently include expression-associated mutations experimentally shown as activating and conferring genetic dependency. Approximately 300 co-clustering phosphosites are verified in patient samples of 5 cancer types or previously implicated in cancer, including CTNNB1 p.S29/Y30, EGFR p.S720, MAPK1 p.S142, and PTPN12 p.S275. In summary, systematic 3D clustering analysis highlights nearly 3,000 likely functional mutations and over 1000 cancer phosphosites for downstream investigation and evaluation of potential clinical relevance.

Suggested Citation

  • Kuan-lin Huang & Adam D. Scott & Daniel Cui Zhou & Liang-Bo Wang & Amila Weerasinghe & Abdulkadir Elmas & Ruiyang Liu & Yige Wu & Michael C. Wendl & Matthew A. Wyczalkowski & Jessika Baral & Sohini Se, 2021. "Spatially interacting phosphorylation sites and mutations in cancer," Nature Communications, Nature, vol. 12(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-22481-w
    DOI: 10.1038/s41467-021-22481-w
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