Cell Reports (Mar 2017)

Precise Temporal Profiling of Signaling Complexes in Primary Cells Using SWATH Mass Spectrometry

  • Etienne Caron,
  • Romain Roncagalli,
  • Takeshi Hase,
  • Witold E. Wolski,
  • Meena Choi,
  • Marisa G. Menoita,
  • Stephane Durand,
  • Antonio García-Blesa,
  • Ivo Fierro-Monti,
  • Tatjana Sajic,
  • Moritz Heusel,
  • Tobias Weiss,
  • Marie Malissen,
  • Ralph Schlapbach,
  • Ben C. Collins,
  • Samik Ghosh,
  • Hiroaki Kitano,
  • Ruedi Aebersold,
  • Bernard Malissen,
  • Matthias Gstaiger

DOI
https://doi.org/10.1016/j.celrep.2017.03.019
Journal volume & issue
Vol. 18, no. 13
pp. 3219 – 3226

Abstract

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Spatiotemporal organization of protein interactions in cell signaling is a fundamental process that drives cellular functions. Given differential protein expression across tissues and developmental stages, the architecture and dynamics of signaling interaction proteomes is, likely, highly context dependent. However, current interaction information has been almost exclusively obtained from transformed cells. In this study, we applied an advanced and robust workflow combining mouse genetics and affinity purification (AP)-SWATH mass spectrometry to profile the dynamics of 53 high-confidence protein interactions in primary T cells, using the scaffold protein GRB2 as a model. The workflow also provided a sufficient level of robustness to pinpoint differential interaction dynamics between two similar, but functionally distinct, primary T cell populations. Altogether, we demonstrated that precise and reproducible quantitative measurements of protein interaction dynamics can be achieved in primary cells isolated from mammalian tissues, allowing resolution of the tissue-specific context of cell-signaling events.

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