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In vivo phosphoproteomics reveals kinase activity profiles that predict treatment outcome in triple-negative breast cancer

Author

Listed:
  • Ivana Zagorac

    (CNIO – Spanish National Cancer Research Center)

  • Sara Fernandez-Gaitero

    (CNIO – Spanish National Cancer Research Center)

  • Renske Penning

    (Utrecht University
    Netherlands Proteomics Center)

  • Harm Post

    (Utrecht University
    Netherlands Proteomics Center)

  • Maria J. Bueno

    (CNIO – Spanish National Cancer Research Center)

  • Silvana Mouron

    (CNIO – Spanish National Cancer Research Center)

  • Luis Manso

    (Medical Oncology)

  • Manuel M. Morente

    (Biobank, CNIO – Spanish National Cancer Research Center)

  • Soledad Alonso

    (Hospital Universitario de Guadalajara)

  • Violeta Serra

    (VHIO - Vall d’Hebron Institute of Oncology)

  • Javier Muñoz

    (CNIO – Spanish National Cancer Research Center)

  • Gonzalo Gómez-López

    (CNIO – Spanish National Cancer Research Center)

  • Jose Francisco Lopez-Acosta

    (CNIO – Spanish National Cancer Research Center)

  • Veronica Jimenez-Renard

    (CNIO – Spanish National Cancer Research Center)

  • Albert Gris-Oliver

    (VHIO - Vall d’Hebron Institute of Oncology)

  • Fatima Al-Shahrour

    (CNIO – Spanish National Cancer Research Center)

  • Elena Piñeiro-Yañez

    (CNIO – Spanish National Cancer Research Center)

  • Jose Luis Montoya-Suarez

    (Hospital Nacional Guillermo Almenara Irigoyen – ESSALUD)

  • Juan V. Apala

    (CNIO – Spanish National Cancer Research Center)

  • Amalia Moreno-Torres

    (Hospital Universitario de Fuenlabrada)

  • Ramon Colomer

    (Hospital La Princesa)

  • Ana Dopazo

    (CNIC - Spanish National Center for Cardiovascular Research)

  • Albert J. R. Heck

    (Utrecht University
    Netherlands Proteomics Center)

  • Maarten Altelaar

    (Utrecht University
    Netherlands Proteomics Center)

  • Miguel Quintela-Fandino

    (CNIO – Spanish National Cancer Research Center
    Hospital Universitario Fuenlabrada
    Hospital Universitario Quirón)

Abstract

Triple-negative breast cancer (TNBC) lacks prognostic and predictive markers. Here, we use high-throughput phosphoproteomics to build a functional TNBC taxonomy. A cluster of 159 phosphosites is upregulated in relapsed cases of a training set (n = 34 patients), with 11 hyperactive kinases accounting for this phosphoprofile. A mass-spectrometry-to-immunohistochemistry translation step, assessing 2 independent validation sets, reveals 6 kinases with preserved independent prognostic value. The kinases split the validation set into two patterns: one without hyperactive kinases being associated with a >90% relapse-free rate, and the other one showing ≥1 hyperactive kinase and being associated with an up to 9.5-fold higher relapse risk. Each kinase pattern encompasses different mutational patterns, simplifying mutation-based taxonomy. Drug regimens designed based on these 6 kinases show promising antitumour activity in TNBC cell lines and patient-derived xenografts. In summary, the present study elucidates phosphosites and kinases implicated in TNBC and suggests a target-based clinical classification system for TNBC.

Suggested Citation

  • Ivana Zagorac & Sara Fernandez-Gaitero & Renske Penning & Harm Post & Maria J. Bueno & Silvana Mouron & Luis Manso & Manuel M. Morente & Soledad Alonso & Violeta Serra & Javier Muñoz & Gonzalo Gómez-L, 2018. "In vivo phosphoproteomics reveals kinase activity profiles that predict treatment outcome in triple-negative breast cancer," Nature Communications, Nature, vol. 9(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05742-z
    DOI: 10.1038/s41467-018-05742-z
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    Cited by:

    1. S. Mouron & M. J. Bueno & A. Lluch & L. Manso & I. Calvo & J. Cortes & J. A. Garcia-Saenz & M. Gil-Gil & N. Martinez-Janez & J. V. Apala & E. Caleiras & Pilar Ximénez-Embún & J. Muñoz & L. Gonzalez-Co, 2022. "Phosphoproteomic analysis of neoadjuvant breast cancer suggests that increased sensitivity to paclitaxel is driven by CDK4 and filamin A," Nature Communications, Nature, vol. 13(1), pages 1-18, December.

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