Molecular Systems Biology (Mar 2024)

Network integration of thermal proteome profiling with multi-omics data decodes PARP inhibition

  • Mira L Burtscher,
  • Stephan Gade,
  • Martin Garrido-Rodriguez,
  • Anna Rutkowska,
  • Thilo Werner,
  • H Christian Eberl,
  • Massimo Petretich,
  • Natascha Knopf,
  • Katharina Zirngibl,
  • Paola Grandi,
  • Giovanna Bergamini,
  • Marcus Bantscheff,
  • Maria Fälth-Savitski,
  • Julio Saez-Rodriguez

DOI
https://doi.org/10.1038/s44320-024-00025-w
Journal volume & issue
Vol. 20, no. 4
pp. 458 – 474

Abstract

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Abstract Complex disease phenotypes often span multiple molecular processes. Functional characterization of these processes can shed light on disease mechanisms and drug effects. Thermal Proteome Profiling (TPP) is a mass-spectrometry (MS) based technique assessing changes in thermal protein stability that can serve as proxies of functional protein changes. These unique insights of TPP can complement those obtained by other omics technologies. Here, we show how TPP can be integrated with phosphoproteomics and transcriptomics in a network-based approach using COSMOS, a multi-omics integration framework, to provide an integrated view of transcription factors, kinases and proteins with altered thermal stability. This allowed us to recover consequences of Poly (ADP-ribose) polymerase (PARP) inhibition in ovarian cancer cells on cell cycle and DNA damage response as well as interferon and hippo signaling. We found that TPP offers a complementary perspective to other omics data modalities, and that its integration allowed us to obtain a more complete molecular overview of PARP inhibition. We anticipate that this strategy can be used to integrate functional proteomics with other omics to study molecular processes.

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