Summary
CCAAT enhancer binding protein beta (C/EBPβ) is a pioneer transcription factor that specifies cell differentiation. C/EBPβ is intrinsically unstructured, a molecular feature common to many proteins involved in signal processing and epigenetics. The structure of C/EBPβ differs depending on alternative translation start site usage and multiple post-translational modifications (PTM). Mutation of distinct PTM sites in C/EBPβ alters designated protein interactions and cell differentiation, suggesting a C/EBPβ PTM indexing code determines epigenetic outcomes. Herein, we systematically explored the interactome of C/EBPβ using an array of spot-synthesised C/EBPβ-derived linear tiling peptides with and without PTM, combined with mass spectrometric proteomic analysis of protein interactions. We identified interaction footprints of ~1300 proteins in nuclear cell extracts, many with chromatin modifying, remodelling and RNA processing functions. The results suggest C/EBPβ acts as a multi-tasking molecular switchboard, integrating signal-dependent modifications and structural plasticity to orchestrate interactions with numerous protein complexes directing cell fate and function.
Highlights
Peptide array based interaction proteomics map SLiM and PTM dependent C/EBPβ interactome
Novel links between C/EBPβ, RNA processing, transcription elongation, MLL, NuRD were revealed
C/EBPβ structure organizes modular hub function for gene regulatory machinery
PRISMA is suitable to resolve protein interactions and networks based on intrinsically disordered proteins