NF-kappa B p105 is a target of I kappa B kinases and controls signal induction of Bcl-3-p50 complexes

The NF-kappa B precursor p105 has dual functions: cytoplasmic retention of attached NF-kappa B proteins and generation of p50 by processing. It is poo rly understood whether these activities of p105 are responsive to signallin g processes that are known to activate NF-kappa B p50-p65. We propose a mod el that p105 is inducibly degraded, and that its degradation liberates sequ estered NF-kappa B subunits, including its processing product p50. p50 homo dimers are specifically bound by the transcription activator Bcl-3. We show that TNF alpha, IL-1 beta or phorbolester (PMA) trigger rapid formation of Bcl-3-p50 complexes with the same kinetics as activation of p50-p65 comple xes, TNF-alpha-induced Bcl-3-p50 formation requires proteasome activity, bu t is independent of p50-p65 released from I kappa B alpha, indicating a pat hway that involves p105 proteolysis. The I kappa B kinases IKK alpha and IK K beta physically interact with p105 and inducibly phosphorylate three C-te rminal serines, p105 is degraded upon TNF-alpha stimulation, but only when the IKK phospho-acceptor sites are intact. Furthermore, a p105 mutant, lack ing the IKK phosphorylation sites, acts as a super-repressor of IKK-induced NF-kappa B transcriptional activity. Thus, the known NF-kappa B stimuli no t only cause nuclear accumulation of p50-p65 heterodimers but also of Bcl-3 -p50 and perhaps further transcription activator complexes which are formed upon IKK-mediated p105 degradation.