A Multiprotein Binding Interface in an Intrinsically Disordered Region of the Tumor Suppressor Protein Interferon Regulatory Factor-1

Vikram Narayan, Petr Halada, Lenka Hernychova, Yuh Ping Chong, Jitka Zakova, Ted R. Hupp, Borivoj Vojtesek, Kathryn L. Ball

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

The interferon-regulated transcription factor and tumor suppressor protein IRF-1 is predicted to be largely disordered outside of the DNA-binding domain. One of the advantages of intrinsically disordered protein domains is thought to be their ability to take part in multiple, specific but low affinity protein interactions; however, relatively few IRF-1-interacting proteins have been described. The recent identification of a functional binding interface for the E3-ubiquitin ligase CHIP within the major disordered domain of IRF-1 led us to ask whether this region might be employed more widely by regulators of IRF-1 function. Here we describe the use of peptide aptamer-based affinity chromatography coupled with mass spectrometry to define a multiprotein binding interface on IRF-1 (Mf2 domain; amino acids 106-140) and to identify Mf2-binding proteins from A375 cells. Based on their function as known transcriptional regulators, a selection of the Mf2 domain-binding proteins (NPM1, TRIM28, and YB-1) have been validated using in vitro and cell-based assays. Interestingly, although NPM1, TRIM28, and YB-1 all bind to the Mf2 domain, they have differing amino acid specificities, demonstrating the degree of combinatorial diversity and specificity available through linear interaction motifs.

Original languageEnglish
Pages (from-to)14291-14303
Number of pages13
JournalJournal of Biological Chemistry
Volume286
Issue number16
DOIs
Publication statusPublished - 22 Apr 2011

Keywords / Materials (for Non-textual outputs)

  • Peptides
  • Protein Domains
  • Protein Motifs
  • Protein-Protein Interactions
  • Transcription Factors
  • Tumor Suppressor
  • IRF-1
  • Intrinsic Disorder
  • Linear Interaction Motif
  • Multiprotein Interface

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