NF-B is an inducible transcription factor mediating innate immune responses whose activity is controlled by the multiprotein IB kinase (IKK) "signalsome". The core IKK consists of two catalytic serine kinases, IKK␣ and IKK, and a noncatalytic subunit, IKK␥. IKK␥ is required for IKK activity by mediating kinase oligomerization and serving to couple the core catalytic subunits to upstream mitogen-activated protein 3-kinase cascades. We have discovered an alternatively spliced IKK␥ mRNA isoform, encoding an in-frame deletion of exon 5, termed IKK␥-⌬. Using a specific reverse transcription-PCR assay, we find that IKK␥-⌬ is widely expressed in cultured human cells and normal human tissues. Because IKK␥-⌬ protein is lacking a critical coiled-coil domain important in protein-protein interactions, we sought to determine its signaling properties by examining its ability to self associate, couple to activators of the canonical pathway, and mediate human T-cell leukemia virus type 1 (HTLV-1) Tax Nuclear factor-B (NF-B) is an inducible transcription factor that controls the expression of inducible inflammatory and antiapoptotic genes (49, 51). NF-B responds to a diverse series of inflammatory activators, including UV light, doublestranded RNA, cytokines, vasoactive peptides, and viral oncogenes through several distinct intracellular pathways (reviewed in reference 36). Because of its central role as an integrator of stress and inflammatory stimuli, the pathways controlling NF-B have been intensively investigated.Currently, it is thought that NF-B activation is controlled by two distinct pathways, termed the canonical (23) and noncanonical pathways (9, 43). The canonical pathway controls nuclear translocation of the prototypical NF-B complex, composed of 65-kDa Rel A-50-kDa NF-B1 heterodimers. Under normal conditions, the Rel A · NF-B1 complex is sequestered and inactivated in the cytoplasm by the IB inhibitors, proteins which inactivate Rel A DNA binding and nuclear translocation by masking its nuclear localization sequence (reviewed in reference 1). NF-B activators induce IB phosphorylation on serine residues 32 and 36 on its NH 2 -terminal regulatory domain (reviewed in reference 23). Phospho-IB is then specifically bound by the Skp1-Cullin-F-Box-type E3 ubiquitin ligase, E3RS, initiating IB ubiquitination and proteolysis through the proteasome (4, 23, 24) and calpain pathways (15). Nuclear translocated NF-B binds high-affinity chromatin sites and activates the expression of a diverse gene network (50) by inducing assembly of active promoters (2) and recruiting coactivators to target gene promoters (44).The cytoplasmic IB kinase (IKK), also known as the "signalsome," is the rate-limiting kinase responsible for inducible IB␣ phosphorylation (23) and is composed of core catalytic kinases and scaffolding proteins. The catalytic core contains the ubiquitous helix-loop-helix proteins IKK␣ and IKK (33,54), associated with the noncatalytic regulatory protein, IKK␥, in a precise stoichiometric relationship of 2 catalytic subuni...
