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1.
Import of proteins into the nucleus proceeds through nuclear pore complexes and is largely mediated by nuclear transport receptors of the importin beta family that use direct RanGTP-binding to regulate the interaction with their cargoes. We investigated nuclear import of the linker histone H1 and found that two receptors, importin beta (Impbeta) and importin 7 (Imp7, RanBP7), play a critical role in this process. Individually, the two import receptors bind H1 weakly, but binding is strong for the Impbeta/Imp7 heterodimer. Consistent with this, import of H1 into nuclei of permeabilized mammalian cells requires exogenous Impbeta together with Imp7. Import by the Imp7/Impbeta heterodimer is strictly Ran dependent, the Ran-requiring step most likely being the disassembly of the cargo-receptor complex following translocation into the nucleus. Disassembly is brought about by direct binding of RanGTP to Impbeta and Imp7, whereby the two Ran-binding sites act synergistically. However, whereas an Impbeta/RanGTP interaction appears essential for H1 import, Ran-binding to Imp7 is dispensable. Thus, Imp7 can function in two modes. Its Ran-binding site is essential when operating as an autonomous import receptor, i.e. independently of Impbeta. Within the Impbeta/Imp7 heterodimer, however, Imp7 plays a more passive role than Impbeta and resembles an import adapter.  相似文献   

2.
The vertebrate glucocorticoid receptor (GR) is cytoplasmic without hormone and localizes to the nucleus after hormone binding. GR has two nuclear localization signals (NLS): NL1 is similar in sequence to the SV40 NLS; NL2 is poorly defined, residing in the ligand-binding domain. We found that GR displayed similar hormone-regulated compartmentalization in Saccharomyces cerevisiae and required the Sxm1 nuclear import receptor for NL2-mediated import. Two metazoan homologues of Sxm1, importin 7 and importin 8, bound both NL1 and NL2, whereas importin alpha selectively bound NL1. In an in vitro nuclear import assay, both importin 7 and the importin alpha-importin beta heterodimer could import a GR NL1 fragment. Under these conditions, full-length GR localized to nuclei in the presence but not absence of an unidentified component in cell extracts. Interestingly, importin 7, importin 8, and importin alpha bound GR even in the absence of hormone; thus, hormonal control of localization is exerted at a step downstream of import receptor binding.  相似文献   

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After synthesis in the cytoplasm, H1 histones are imported into the nucleus through an energy-dependent process that can be mediated by an importin beta-importin 7 (Impbeta-Imp7) heterodimer. H1 histones contain two structurally different types of nuclear localization signals (NLS). The first type of NLS resides within the unstructured C-terminal domain and is rich in basic amino acids. In contrast, the highly conserved central domain of the H1 histone contains comparatively few basic amino acids but also represents a functional NLS. The competence for the nuclear import of this globular domain seems to be based on its secondary structure. Here, we show that the Impbeta-Imp7 heterodimer is the only receptor for H1 import. Furthermore, we identified the import receptors mediating the in vitro transport of different NLS of the H1 histone. Using the digitonin-permeabilized cell import assay we show that Impbeta is the most efficient import receptor for the globular domain of H1 histones, whereas the heterodimer of Impbeta and Imp7 is the functional receptor for the entire C-terminal domain. However, short fragments of the C-terminal domain are imported in vitro by at least four different importins, which resembles the import pathway of ribosomal proteins and core histones. In addition, we show that heterodimerization of Impbeta with Imp7 is absolutely necessary for their proper function as an import receptor for H1 histones. These findings point to a chaperone-like function of the heterodimeric complex in addition to its function as an import receptor. It appears that the Impbeta-Imp7 heterodimer is specialized for NLS consisting of extended basic domains.  相似文献   

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Matsuura Y  Stewart M 《The EMBO journal》2005,24(21):3681-3689
Nuclear import of proteins containing classical nuclear localization signals (NLS) is mediated by the importin-alpha:beta complex that binds cargo in the cytoplasm and facilitates its passage through nuclear pores, after which nuclear RanGTP dissociates the import complex and the importins are recycled. In vertebrates, import is stimulated by nucleoporin Nup50, which has been proposed to accompany the import complex through nuclear pores. However, we show here that the Nup50 N-terminal domain actively displaces NLSs from importin-alpha, which would be more consistent with Nup50 functioning to coordinate import complex disassembly and importin recycling. The crystal structure of the importin-alpha:Nup50 complex shows that Nup50 binds at two sites on importin-alpha. One site overlaps the secondary NLS-binding site, whereas the second extends along the importin-alpha C-terminus. Mutagenesis indicates that interaction at both sites is required for Nup50 to displace NLSs. The Cse1p:Kap60p:RanGTP complex structure suggests how Nup50 is then displaced on formation of the importin-alpha export complex. These results provide a rationale for understanding the series of interactions that orchestrate the terminal steps of nuclear protein import.  相似文献   

8.
In vertebrate cells, the nucleoporin Nup358/RanBP2 is a major component of the filaments that emanate from the nuclear pore complex into the cytoplasm. Nup358 forms a complex with SUMOylated RanGAP1, the GTPase activating protein for Ran. RanGAP1 plays a pivotal role in the establishment of a RanGTP gradient across the nuclear envelope and, hence, in the majority of nucleocytoplasmic transport pathways. Here, we investigate the roles of the Nup358-RanGAP1 complex and of soluble RanGAP1 in nuclear protein transport, combining in vivo and in vitro approaches. Depletion of Nup358 by RNA interference led to a clear reduction of importin alpha/beta-dependent nuclear import of various reporter proteins. In vitro, transport could be partially restored by the addition of importin beta, RanBP1, and/or RanGAP1 to the transport reaction. In intact Nup358-depleted cells, overexpression of importin beta strongly stimulated nuclear import, demonstrating that the transport receptor is the most rate-limiting factor at reduced Nup358-concentrations. As an alternative approach, we used antibody-inhibition experiments. Antibodies against RanGAP1 inhibited the enzymatic activity of soluble and nuclear pore-associated RanGAP1, as well as nuclear import and export. Although export could be fully restored by soluble RanGAP, import was only partially rescued. Together, these data suggest a dual function of the Nup358-RanGAP1 complex as a coordinator of importin beta recycling and reformation of novel import complexes.  相似文献   

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Little quantitative, kinetic information is available with respect to the process of nuclear import of conventional nuclear localization sequence (NLS)-containing proteins, which initially involves recognition and docking at the nuclear pore by importin alpha/beta. This study compares the binding and nuclear import properties of mouse (m) and yeast (y) importin (IMP) subunits with respect to the NLSs from the SV40 large tumor antigen (T-ag), and the Xenopus laevis phosphoprotein N1N2. m- and y-IMPalpha recognized both NLSs, with y-IMPalpha exhibiting higher affinity. m-IMPbeta greatly enhanced the binding of m-IMPalpha to the T-ag and N1N2 NLSs, but y-IMPbeta did not significantly affect the affinity of y-IMPalpha for the T-ag NLS. In contrast, y-IMPbeta enhanced y-IMPalpha binding to the NLS of N1N2, but to a lesser extent than the enhancement of m-IMPalpha binding by m-IMPbeta. NLS-dependent nuclear import was reconstituted in vitro using the different importin subunits together with the transport factors Ran and NTF2. Whereas T-ag NLS-mediated nuclear import did not exhibit an absolute requirement for NTF2, N1N2 NLS-mediated transport strictly required NTF2. High levels of NTF2 inhibited nuclear accumulation conferred by both NLSs. We conclude that different NLSs possess distinct nuclear import properties due to differences in recognition by importin and requirements for NTF2.  相似文献   

11.
We report here that importin alpha accumulates reversibly in the nucleus in response to cellular stresses including UV irradiation, oxidative stress, and heat shock. The nuclear accumulation of importin alpha appears to be triggered by a collapse in the Ran gradient, resulting in the suppression of the nuclear export of importin alpha. In addition, nuclear retention and the importin beta/Ran-independent import of importin alpha also facilitate its rapid nuclear accumulation. The findings herein show that the classical nuclear import pathway is down-regulated via the removal of importin alpha from the cytoplasm in response to stress. Moreover, whereas the nuclear accumulation of heat shock cognate 70 is more sensitive to heat shock than the other stresses, importin alpha is able to accumulate in the nucleus at all the stress conditions tested. These findings suggest that the stress-induced nuclear accumulation of importin alpha can be involved in a common physiological response to various stress conditions.  相似文献   

12.
We characterized the Arabidopsis orthologue of the human nuclear import receptor transportin1 (TRN1). Like the human receptor, Arabidopsis TRN1 recognizes nuclear import signals on proteins that are different from the classical basic nuclear localization signals. The M9 domain of human heterogeneous nuclear ribonucleoprotein A1 (hnRNP A1) is the prototype of such signals. We show that AtTRN1 binds to similar domains in hnRNP-like proteins from plants. AtTRN1 also interacts with human hnRNP A1 and with yeast Nab2p, two classical import cargo proteins of transportin in these organisms. Like all nuclear transport receptors of the importin-beta family, AtTRN1 binds to the regulatory GTPase Ran from Arabidopsis. We demonstrated that the amino terminus of AtTRN1 is necessary for this interaction. Recombinant AtTRN1 conferred nuclear import of fluorescently labelled BSA-M9 peptide conjugates in permeabilized HeLa cells, functionally replacing human TRN1 in these in vitro nuclear import assays. We identified three plant substrate proteins that interact with AtTRN1 and contain M9-like domains: a novel Arabidopsis hnRNP that shows high similarity to human hnRNP A1 and two small RNA-binding proteins from Arabidopsis, AtGRP7 and AtGRP8. Nuclear import activity of the M9-like domains of these plant proteins was demonstrated in vivo by their ability to confer partial nuclear re-localisation of a GFP fusion protein containing a nuclear export signal. In addition, fluorescently labelled AtGRP7 was specifically imported into nuclei of permeabilized HeLa cells by Arabidopsis AtTRN1 and human TRN1. These results suggest that the transportin-mediated nuclear import pathway is highly conserved between man, yeast and plants.  相似文献   

13.
Nuclear import of HuR, a shuttling RNA-binding protein, is associated with reduced stability of its target mRNAs. Increased function of the AMP-activated protein kinase (AMPK), an enzyme involved in responding to metabolic stress, was recently shown to reduce the cytoplasmic levels of HuR. Here, we provide evidence that importin alpha1, an adaptor protein involved in nuclear import, contributes to the nuclear import of HuR through two AMPK-modulated mechanisms. First, AMPK triggered the acetylation of importin alpha1 on Lys(22), a process dependent on the acetylase activity of p300. Second, AMPK phosphorylated importin alpha1 on Ser(105). Accordingly, expression of importin alpha1 proteins bearing K22R or S105A mutations failed to mediate the nuclear import of HuR in intact cells. Our results point to importin alpha1 as a critical downstream target of AMPK and key mediator of AMPK-triggered HuR nuclear import.  相似文献   

14.
Kose S  Imamoto N  Yoneda Y 《FEBS letters》1999,453(3):327-330
Carbohydrates with reactive aldehyde and ketone groups can undergo Maillard reactions with proteins to form advanced glycation end products. Oxalate monoalkylamide was identified as one of the advanced glycation end products formed from the Maillard reaction of ascorbate with proteins. In these experiments, we have analyzed human lens proteins immunochemically for the presence of oxalate monoalkylamide. Oxalate monoalkylamide was absent in most of the very young lenses but was present in old and cataractous lenses. The highest levels were found in senile brunescent lenses. Incubation experiments using bovine lens proteins revealed that oxalate monoalkylamide could form from the ascorbate degradation products, 2,3-diketogulonate and L-threose. These data provide the first evidence for oxalate monoalkylamide in vivo and suggest that ascorbate degradation and its binding to proteins are enhanced during lens aging and cataract formation.  相似文献   

15.
Nuclear import and export signals on macromolecules mediate directional, receptor-driven transport through the nuclear pore complex (NPC) by a process that is suggested to involve the sequential binding of transport complexes to different nucleoporins. The directionality of transport appears to be partly determined by the nucleocytoplasmic compartmentalization of components of the Ran GTPase system. We have analyzed whether the asymmetric localization of discrete nucleoporins can also contribute to transport directionality. To this end, we have used quantitative solid phase binding analysis to determine the affinity of an importin beta cargo complex for Nup358, the Nup62 complex, and Nup153, which are in the cytoplasmic, central, and nucleoplasmic regions of the NPC, respectively. These nucleoporins are proposed to provide progressively more distal binding sites for importin beta during import. Our results indicate that the importin beta transport complex binds to nucleoporins with progressively increasing affinity as the complex moves from Nup358 to the Nup62 complex and to Nup153. Antibody inhibition studies support the possibility that importin beta moves from Nup358 to Nup153 via the Nup62 complex during import. These results indicate that nucleoporins themselves, as well as the nucleocytoplasmic compartmentalization of the Ran system, are likely to play an important role in conferring directionality to nuclear protein import.  相似文献   

16.
Preferential utilization of Imp7/8 in nuclear import of Smads   总被引:1,自引:0,他引:1  
Trafficking of Smad proteins between the cytoplasm and nucleus is a critical component of transforming growth factor beta (TGF-beta) signal transduction. Smad4 translocates into the nucleus either in response to TGF-beta stimulation or when its nuclear export is blocked by leptomycin B (LMB). We demonstrate that both TGF-beta-induced and basal state spontaneous nuclear import of Smad4 require importin 7 and 8 (Imp7,8). Our data suggest that in the nuclear import of Smad4, the role of Imp8 is irreplaceable by Imp7, and that Smads preferentially bind Imp8. Interestingly, in contrast to its mammalian counterpart Smad4, Drosophila Medea appears to utilize different mechanisms for TGF-beta-induced or basal state nuclear accumulation, with the latter independent of Msk (Drosophila Imp7/8) function. In addition, overexpression of Imp8 alone was sufficient to cause an increased concentration of Smad1, 3 and 4 in the nucleus, but had very limited effects on Smad2. These observations suggest selective involvement of Imp8/Msk in nuclear import of different Smads under different conditions.  相似文献   

17.
Importin alpha plays a pivotal role in the classical nuclear protein import pathway. Importin alpha shuttles between nucleus and cytoplasm, binds nuclear localization signal-bearing proteins, and functions as an adapter to access the importin beta-dependent import pathway. In contrast to what is found for importin beta, several isoforms of importin alpha, which can be grouped into three subfamilies, exist in higher eucaryotes. We describe here a novel member of the human family, importin alpha7. To analyze specific functions of the distinct importin alpha proteins, we recombinantly expressed and purified five human importin alpha's along with importin alpha from Xenopus and Saccharomyces cerevisiae. Binding affinity studies showed that all importin alpha proteins from humans or Xenopus bind their import receptor (importin beta) and their export receptor (CAS) with only marginal differences. Using an in vitro import assay based on permeabilized HeLa cells, we compared the import substrate specificities of the various importin alpha proteins. When the substrates were tested singly, only the import of RCC1 showed a strong preference for one family member, importin alpha3, whereas most of the other substrates were imported by all importin alpha proteins with similar efficiencies. However, strikingly different substrate preferences of the various importin alpha proteins were revealed when two substrates were offered simultaneously.  相似文献   

18.
RCC1 is the only known guanine nucleotide exchange factor for the small GTPase Ran and is normally found inside the nucleus bound to chromatin. In order to analyze in more detail the nuclear import of RCC1, we created a fusion construct in which four IgG binding domains of protein A were fused to the amino terminus of human RCC1 (pA-RCC1). Surprisingly, we found that neither Xenopus ovarian cytosol nor a mixture of recombinant import factors (karyopherin alpha2, karyopherin beta1, Ran, and p10/NTF2) were able to support the import of pA-RCC1 into the nuclei of digitonin-permeabilized cells. Both, in contrast, were capable of supporting the import of a construct containing another classical nuclear localization sequence (NLS), glutathione S-transferase-green fluorescent protein-NLS. Subsequently, we found that only one of the NLS receptors, karyopherin alpha3 (Kapalpha3/Qip), would support significant nuclear import of pA-RCC1 in permeabilized cells, while members of the other two main classes, Kapalpha1 and Kapalpha2, would not. Accordingly, in vitro binding studies revealed that only Kapalpha3 showed significant binding to RCC1 (unlike Kapalpha1 and Kapalpha2) and that this binding was dependent on the basic amino acids present in the RCC1 NLS. In addition to Kapalpha3, we found that the nuclear import of pA-RCC1 also required both karyopherin beta1 and Ran.  相似文献   

19.
The open reading frame UL84 of human cytomegalovirus encodes a multifunctional regulatory protein which is required for viral DNA replication and binds with high affinity to the immediate-early transactivator IE2-p86. Although the exact role of pUL84 in DNA replication is unknown, the nuclear localization of this protein is a prerequisite for this function. To investigate whether the activities of pUL84 are modulated by cellular proteins we used the Saccharomyces cerevisiae two-hybrid system to screen a cDNA-library for interacting proteins. Strong interactions were found between pUL84 and four members of the importin alpha protein family. These interactions could be confirmed in vitro by pull down experiments and in vivo by coimmunoprecipitation analysis from transfected cells. Using in vitro transport assays we showed that the pUL84 nuclear import required importin alpha, importin beta, and Ran, thus following the classical importin-mediated import pathway. Deletion mutagenesis of pUL84 revealed a domain of 282 amino acids which is required for binding to the importin alpha proteins. Its function as a nuclear localization signal (NLS) was confirmed by fusion to heterologous proteins. Although containing a cluster of basic amino acids similar to classical NLSs, this cluster did not contain the NLS activity. Thus, a complex structure appears to be essential for importin alpha binding and import activity.  相似文献   

20.
The sex-determining factor SRY is a DNA-binding protein that diverts primordial gonads from the ovarian pathway toward male differentiation to form testes. It gains access to the nucleus through two distinct nuclear localization signals (NLSs) that flank the high mobility group (HMG) DNA-binding domain, but the mechanisms through which these NLSs operate have not been studied. In this study, we reconstitute the nuclear import of SRY in vitro, demonstrating a lack of requirement for exogenous factors for nuclear accumulation and a significant reduction in nuclear transport in the presence of antibodies to importin beta but not importin alpha. Using a range of quantitative binding assays including enzyme-linked immunosorbent assay, fluorescence polarization, and native gel mobility electrophoresis, we assess the binding of importins to SRY, demonstrating a high affinity recognition (in the low nm range) by Imp beta independent of Imp alpha. In assessing the contribution of each NLS, we found that the N-terminal NLS was recognized poorly by importins, whereas the C-terminal NLS was bound by importin beta with similar affinity to SRY. We also found that RanGTP, but not RanGDP, could dissociate the SRY-importin beta complex in solution using FP. We describe a novel double-fluorescent label DNA binding assay to demonstrate mutual exclusivity between importin beta recognition and DNA binding on the part of SRY, which may represent an alternative release mechanism upon nuclear entry. This study represents the first characterization of the nuclear import pathway for a HMG domain-containing protein. Importantly, it demonstrates for the first time that recognition of SRY by Imp beta is of comparable affinity to that with which Imp alpha/beta recognizes conventional NLS-containing substrates.  相似文献   

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