One of the most prominent NF-kappaB target genes in mammalian cells is the gene encoding one of its inhibitor proteins, IkappaBalpha. The increased synthesis of IkappaBalpha leads to postinduction repression of nuclear NF-kappaB activity. However, it is unknown why IkappaBalpha, among multiple IkappaB family members, is involved in this process and what significance this feedback regulation has beyond terminating NF-kappaB activity. Herein, we report an important IkappaBalpha-specific function dictated by its amino-terminal nuclear export sequence (N-NES). The IkappaBalpha N-NES is necessary for the postinduction export of nuclear NF-kappaB, which is a critical event in reestablishing a permissive condition for NF-kappaB to be rapidly reactivated. We show that although IkappaBalpha and another IkappaB member, IkappaBbeta, can enter the nucleus and repress NF-kappaB DNA-binding activity during the postinduction phase, only IkappaBalpha allows the efficient export of nuclear NF-kappaB. Moreover, swapping the N-terminal region of IkappaBbeta for the corresponding IkappaBalpha sequence is sufficient for the IkappaB chimera protein to export NF-kappaB similarly to IkappaBalpha during the postinduction state. Our findings provide a mechanistic explanation of why IkappaBalpha but not other IkappaB members is crucial for postrepression activation of NF-kappaB. We propose that this IkappaBalpha-specific function is important for certain physiological and pathological conditions where NF-kappaB needs to be rapidly reactivated.