The N-terminal nuclear export sequence of IkappaBalpha is required for RanGTP-dependent binding to CRM1.

Nuclear export of IkappaBalpha is mediated by the CRM1 nuclear export receptor. However, the identity of the nuclear export sequences NES(s) in IkappaBalpha that are responsible for binding of IkappaBalpha to CRM1 is controversial. Both a N-terminal NES-like region (amino acids 45-54) and a C-terminal NES-like region (amino acids 265-280) have, in a number of reports from different laboratories, been implicated in CRM1-dependent nuclear export of IkappaBalpha. We now demonstrate that the N-terminal NES-like region, but not the C-terminal NES-like region, is required for RanGTP-dependent binding of IkappaBalpha to CRM1. IkappaBalpha is a relatively weak substrate for CRM1, with an affinity for CRM1 that is 100-fold less than the minute virus of mice NS2 protein, a high affinity cargo protein for CRM1. We also demonstrate that IkappaBalpha functions as a physical adaptor between CRM1 and NFkappaB/Rel proteins. Both free IkappaBalpha and Rel-associated IkappaBalpha have comparable affinities for CRM1, suggesting that CRM1 does not discriminate between free IkappaBalpha and Rel-associated IkappaBalpha. Nuclear export of c-Rel by IkappaBalpha requires the N-terminal NES-like sequence of IkappaBalpha but is not affected by alanine substitutions within the C-terminal NES-like sequence of IkappaBalpha. In contrast, nuclear export of the v-Rel oncoprotein by IkappaBalpha is disrupted by alanine substitutions within either the N-terminal or the C-terminal NES-like sequences. However, alanine substitutions within the C-terminal NES-like sequence significantly reduce the affinity of IkappaBalpha for v-Rel, suggesting that loss of export function for this mutant is secondary to reduced association between IkappaBalpha and v-Rel. Taken together, our results demonstrate that the N-terminal NES-like sequence in IkappaBalpha is required for RanGTP-dependent binding of both free IkappaBalpha and NFkappaB/Rel-associated IkappaBalpha proteins to CRM1.