Abstract
The IκB Kinase (IKK) complex, containing catalytic IKK2 and noncatalytic NEMO subunits, plays essential roles in the induction of transcription factors of the NF-κB family. Catalytic activation of IKK2 via phosphorylation of its activation loop is promoted upon noncovalent association of linear or K63-linked polyubiquitin chains to NEMO within the IKK complex. The mechanisms of this activation remain speculative. To investigate interaction dynamics within the IKK complex during activation of IKK2, we conducted hydrogen-deuterium exchange coupled with mass spectrometry (HDX-MS) on NEMO and IKK2 proteins in their free and complex-bound states. Altered proton exchange profiles were observed in both IKK2 and NEMO upon complex formation, and changes were consistent with the involvement of distinct regions throughout the entire length of both proteins, including previously uncharacterized segments, in direct or allosteric interactions. Association with linear tetraubiquitin (Ub(4)) affected multiple regions of the IKK2:NEMO complex, in addition to previously identified interaction sites on NEMO. Intriguingly, observed enhanced solvent accessibility of the IKK2 activation loop within the IKK2:NEMO:Ub(4) complex, coupled with contrasting protection of surrounding segments of the catalytic subunit, suggests an allosteric role for NEMO:Ub(4) in priming IKK2 for phosphorylation-dependent catalytic activation.