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A nuclear poly(ADP-ribose)-dependent signalosome confers DNA damage-induced IκB kinase activation

Authors

  • M. Stilmann
  • M. Hinz
  • S. Coel Arslan
  • A. Zimmer
  • V. Schreiber
  • C. Scheidereit

Journal

  • Molecular Cell

Citation

  • Mol Cell 36 (3): 365-378

Abstract

  • Upon genotoxic stresses, cells activate I{kappa}B kinases (IKKs) and the transcription factor NF-{kappa}B to modulate apoptotic responses. The SUMO-1 ligase PIASy and the kinase ataxia talengiectasia mutated (ATM) have been implicated to SUMOylate and phosphorylate nuclear IKK{gamma} (NEMO) in a consecutive mode of action, which in turn results in activation of cytoplasmic IKK holocomplexes. However, the nuclear signals and scaffold structures that initiate IKK{gamma} recruitment and activation are unknown. Here, we show that poly(ADP-ribose)-polymerase-1 (PARP-1) is the DNA proximal regulator, which senses DNA strand breaks and, through poly(ADP-ribose) (PAR) synthesis, assembles IKK{gamma}, PIASy, and ATM in a dynamic manner. Signalosome formation involves direct protein-protein interactions and binding to ADP-ribose polymers through PAR binding motifs (PARBM). Activated PARP-1 and a PARBM in PIASy are required to trigger IKK{gamma} SUMOylation, which in turn permits IKK and NF-{kappa}B activation, as well as NF-{kappa}B-regulated resistance to apoptosis.


DOI

doi:10.1016/j.molcel.2009.09.032