PLoS ONE (Jan 2015)

Label-Free Protein-RNA Interactome Analysis Identifies Khsrp Signaling Downstream of the p38/Mk2 Kinase Complex as a Critical Modulator of Cell Cycle Progression.

  • Jorge Boucas,
  • Christian Fritz,
  • Anna Schmitt,
  • Arina Riabinska,
  • Lisa Thelen,
  • Martin Peifer,
  • Uschi Leeser,
  • Peter Nuernberg,
  • Janine Altmueller,
  • Matthias Gaestel,
  • Christoph Dieterich,
  • H Christian Reinhardt

DOI
https://doi.org/10.1371/journal.pone.0125745
Journal volume & issue
Vol. 10, no. 5
p. e0125745

Abstract

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Growing evidence suggests a key role for RNA binding proteins (RBPs) in genome stability programs. Additionally, recent developments in RNA sequencing technologies, as well as mass-spectrometry techniques, have greatly expanded our knowledge on protein-RNA interactions. We here use full transcriptome sequencing and label-free LC/MS/MS to identify global changes in protein-RNA interactions in response to etoposide-induced genotoxic stress. We show that RBPs have distinct binding patterns in response to genotoxic stress and that inactivation of the RBP regulator module, p38/MK2, can affect the entire spectrum of protein-RNA interactions that take place in response to stress. In addition to validating the role of known RBPs like Srsf1, Srsf2, Elavl1 in the genotoxic stress response, we add a new collection of RBPs to the DNA damage response. We identify Khsrp as a highly regulated RBP in response to genotoxic stress and further validate its role as a driver of the G(1/)S transition through the suppression of Cdkn1a(P21) transcripts. Finally, we identify KHSRP as an indicator of overall survival, as well as disease free survival in glioblastoma multiforme.