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Control over the nuclear localization of nuclear factor kappaB/Rel proteins is accomplished in large part through association with members of the inhibitor of kappaB (IkappaB) protein family. For example, the well studied IkappaBalpha protein actively shuttles between the nucleus and the cytoplasm and both inhibits nuclear import and mediates nuclear export of NF-kappaB/Rel proteins. In contrast, the IkappaBbeta protein can inhibit nuclear import of NF-kappaB/Rel proteins but does not remove NF-kappaB/Rel proteins from the nucleus. To further understand how the IkappaB proteins control the nuclear-cytoplasmic distribution of NF-kappaB/Rel proteins, we have characterized the nuclear import and nuclear export functions of IkappaBepsilon. Our results indicate that the IkappaBepsilon protein, like the IkappaBalpha protein, actively shuttles between the nucleus and the cytoplasm. Similar to IkappaBalpha, nuclear import of IkappaBepsilon is mediated by its ankyrin repeat domain and is not blocked by the dominant-negative RanQ69L protein. However, the nuclear import function of the IkappaBepsilon ankyrin repeat domain is markedly less efficient than that of IkappaBalpha, with the result that nuclear shuttling of IkappaBepsilon between the nucleus and the cytoplasm is significantly slower than IkappaBalpha. Nuclear export of IkappaBepsilon is mediated by a short leucine-rich nuclear export sequence (NES)-like sequence ((343)VLLPFDDLKI(352)), located between amino acids 343 and 352. This NES-like sequence is required for RanGTP-dependent binding of IkappaBepsilon to CRM1. Nuclear accumulation of IkappaB(epsilon) is increased by either leptomycin B treatment or alanine substitutions within the IkappaBepsilon-derived NES. A functional NES is required for both efficient cytoplasmic retention and post-induction control of c-Rel by IkappaBepsilon, consistent with the notion that IkappaBepsilon-mediated nuclear export contributes to control over the nucleocytoplasmic distribution of NF-kappaB/Rel proteins.  相似文献   

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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.  相似文献   

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Leptomycin B (LMB) is aStreptomycesmetabolite that inhibits nuclear export of the human immunodeficiency virus type 1 regulatory protein Rev at low nanomolar concentrations. Recently, LMB was shown to inhibit the function of CRM1, a receptor for the nuclear export signal (NES). Here we show evidence that LMB binds directly to CRM1 and that CRM1 is essential for NES-dependent nuclear export of proteins in both yeast and mammalian cells. Binding experiments with a biotinylated derivative of LMB and a HeLa cell extract led to identifying CRM1 as a major protein that bound to the LMB derivative. Microinjection of a purified anti-human CRM1 antibody into the mammalian nucleus specifically inhibited nuclear export of NES-containing proteins, as did LMB. Consistent with this, CRM1 was found to interact with NES, when assayed with immobilized NES and HeLa cell extracts. This association was disrupted by adding LMB or purified anti-human CRM1 antibody. The inhibition of CRM1 by LMB was also observed in fission yeast. The fission yeastcrm1mutant was defective in the nuclear export of NES-fused proteins, but not in the import of nuclear localization signal (NLS)-fused proteins. Interestingly, a protein containing both NES and NLS, which is expected to shuttle between nucleus and cytoplasm, was highly accumulated in the nucleus of thecrm1mutant cells or of cells treated with LMB. These results strongly suggest that CRM1 is the target of LMB and is an essential factor for nuclear export of proteins in eukaryotes.  相似文献   

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The inhibitor of kappa B alpha (IkappaBalpha) protein is able to shuttle between the cytoplasm and the nucleus. We have utilized a combination of in vivo and in vitro approaches to provide mechanistic insight into nucleocytoplasmic shuttling by IkappaBalpha. IkappaBalpha contains multiple functional domains that contribute to shuttling of IkappaBalpha between the cytoplasm and the nucleus. Nuclear import of IkappaBalpha is mediated by the central ankyrin repeat domain. Similar to previously described nuclear import pathways, nuclear import of IkappaBalpha is temperature and ATP dependent and is blocked by a dominant-negative mutant of importin beta. However, in contrast to classical nuclear import pathways, nuclear import of IkappaBalpha is independent of soluble cytosolic factors and is not blocked by the dominant-negative RanQ69L protein. Nuclear export of IkappaBalpha is mediated by an N-terminal nuclear export sequence. Nuclear export of IkappaBalpha requires the CRM1 nuclear export receptor and is blocked by the dominant-negative RanQ69L protein. Our results are consistent with a model in which nuclear import of IkappaBalpha is mediated through direct interactions with components of the nuclear pore complex, while nuclear export of IkappaBalpha is mediated via a CRM1-dependent pathway.  相似文献   

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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.  相似文献   

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Mature B lymphocytes are unique in containing nuclear Rel proteins prior to cell stimulation. This activity consists largely of p50-c-Rel heterodimers, and its importance for B-cell function is exemplified by reduced B-cell viability in several genetically altered mouse strains. Here we suggest a mechanism for the cell specificity and the subunit composition of constitutive B-cell NF-kappaB based on the observed properties of Rel homo- and heterodimers and IkappaBalpha. We show that c-Rel lacks a nuclear export sequence, making the removal of c-Rel-containing complexes from the nucleus less efficient than removal of p65-containing complexes. Second, the nuclear import potential of p65 and c-Rel homodimers but not p50-associated heterodimers was attenuated when they were complexed to IkappaBalpha, leading to a greater propensity of heterodimers to be nuclear. We propose that subunit composition of B-cell NF-kappaB reflects the inefficient retrieval of p50-c-Rel heterodimers from the nucleus. Cell specificity may be a consequence of c-Rel-IkappaBalpha complexes being present only in mature B cells, which leads to nuclear c-Rel due to IkappaBalpha turnover and shuttling of the complex.  相似文献   

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The inhibitor of NF-kappaB (IkappaB) family of proteins is believed to regulate NF-kappaB activity by cytoplasmic sequestration. We show that in cells depleted of IkappaBalpha, IkappaBbeta and IkappaBepsilon proteins, a small fraction of p65 binds DNA and leads to constitutive activation of NF-kappaB target genes, even without stimulation, whereas most of the p65 remains cytoplasmic. These results indicate that although IkappaBalpha, IkappaBbeta and IkappaBepsilon proteins could be dispensable for cytoplasmic retention of NF-kappaB, they are essential for preventing NF-kappaB-dependent gene expression in the basal state. We also show that in the absence of IkappaBalpha, IkappaBbeta and IkappaBepsilon proteins, cytoplasmic retention of NF-kappaB by other cellular proteins renders the pathway unresponsive to activation.  相似文献   

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