Regulation of NF-κB2 p100 processing by its cis-acting domain

Processing of NF-kappaB2 precursor protein p100 to generate p52 is tightly regulated. However, this proteolytic event could be actively induced by the NF-kappaB-inducing kinase and the human T-cell leukemia virus-encoded oncoprotein Tax or be constitutively turned on due to the loss of the C-terminal portion of p100. Whereas NF-kappaB-inducing kinase-mediated p100 processing requires beta-transducin repeat-containing protein, constitutive processing of p100 is independent of this protein. On the other hand, Tax-induced processing of p100 appears to be both beta-transducin repeat-containing protein-dependent and -independent. We show here that, besides the C-terminal sequences, multiple functional regions, including the two alpha-helices, dimerization domain, nuclear localization sequence, and glycine-rich region, located in the N terminus of p100, also play important roles in both constitutive and inducible processing, suggesting a common mechanism for p100 processing. We further demonstrate that with the help of the C-terminal death domain and IkappaB kinase alpha-targeting serines, the C-terminal ankyrin-repeat domain of p100 strongly interacts with its N-terminal dimerization domain and nuclear localization sequence, thereby bringing the C- and N-terminal sequences together to form a three-dimensional domain. This presumptive domain is not only responsible for suppression of constitutive processing but also required for inducible processing of p100. Taken together, these studies highlight the mechanism by which the different sequences within p100 work in concert to regulate its processing and shed light on the mechanisms of how p100 processing is tightly and delicately controlled.