Shingo Kose scite author profile

We recently showed that a nuclear location signal (NLS)‐containing karyophile forms a stable complex with cytoplasmic components for nuclear pore‐targeting The complex, termed nuclear pore‐targeting complex (PTAC), contained two essential proteins of 54 and 90 kDa, respectively, as estimated by electrophoresis. In this study, we found that the 54 kDa component of PTAC is the mouse homologue of Xenopus importin (m‐importin). Cytoplasmic injection of the antibodies raised against recombinant m‐importin showed an inhibitory effect on nuclear import of a karyophile in living mammalian cells. A portion of cytoplasmically injected antibodies migrated rapidly into the nucleus, indicating dynamic movement of this protein across the nuclear envelope. Moreover, the injected antibodies co‐precipitated the karyophile, in an NLS‐dependent manner, with endogenous m‐importin in the cytoplasm. These results provide in vivo evidence that m‐importin is involved in nuclear protein import through association with a NLS in the cytoplasm before nuclear pore binding.

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Transforming Growth Factor-β Induces Nuclear Import of Smad3 in an Importin-β1 and Ran-dependent Manner

Kurisaki

Kose

Yoneda

et al. 2001

MBoC

168

162

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Smad proteins are cytoplasmic signaling effectors of transforming growth factor-␤ (TGF-␤) family cytokines and regulate gene transcription in the nucleus. Receptor-activated Smads (R-Smads) become phosphorylated by the TGF-␤ type I receptor. Rapid and precise transport of R-Smads to the nucleus is of crucial importance for signal transduction. By focusing on the R-Smad Smad3 we demonstrate that 1) only activated Smad3 efficiently enters the nucleus of permeabilized cells in an energy-and cytosol-dependent manner. 2) Smad3, via its N-terminal domain, interacts specifically with importin-␤1 and only after activation by receptor. In contrast, the unique insert of exon3 in the N-terminal domain of Smad2 prevents its association with importin-␤1. 3) Nuclear import of Smad3 in vivo requires the action of the Ran GTPase, which mediates release of Smad3 from the complex with importin-␤1. 4) Importin-␤1, Ran, and p10/NTF2 are sufficient to mediate import of activated Smad3. The data describe a pathway whereby Smad3 phosphorylation by the TGF-␤ receptor leads to enhanced interaction with importin-␤1 and Ran-dependent import and release into the nucleus. The import mechanism of Smad3 shows distinct features from that of the related Smad2 and the structural basis for this difference maps to the divergent sequences of their N-terminal domains.

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Ran-unassisted Nuclear Migration of a 97-kD Component of Nuclear Pore–targeting Complex

et al. 1997

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A 97-kD component of nuclear pore-targeting complex (the β-subunit of nuclear pore–targeting complex [PTAC]/importin/karyopherin) mediates the import of nuclear localization signal (NLS)-containing proteins by anchoring the NLS receptor protein (the α-subunit of PTAC/importin/karyopherin) to the nuclear pore complex (NPC). The import requires a small GTPase Ran, which interacts directly with the β-subunit. The present study describes an examination of the behavior of the β-subunit in living cells and in digitonin-permeabilized cells. In living cells, cytoplasmically injected β-subunit rapidly migrates into the nucleus. The use of deletion mutants reveals that nuclear migration of the β-subunit requires neither Ran- nor α-subunit–binding but only the NPC-binding domain of this molecule, which is also involved in NLS-mediated import. Furthermore, unlike NLS-mediated import, a dominant-negative Ran, defective in GTP-hydrolysis, did not inhibit nuclear migration of the β-subunit. In the digitonin-permeabilized cell-free import assay, the β-subunit transits rapidly through the NPC into the nucleus in a saturating manner in the absence of exogenous addition of soluble factors. These results show that the β-subunit undergoes translocation at the NPC in a Ran-unassisted manner when it does not carry α-subunit/NLS substrate. Therefore, a requirement for Ran arises only when the β-subunit undergoes a translocation reaction together with the α-subunit/NLS substrate. The results provide an insight to the yet unsolved question regarding the mechanism by which proteins are directionally transported through the NPC, and the role of Ran in this process.

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Phosphoproteomics reveals new ERK MAP kinase targets and links ERK to nucleoporin-mediated nuclear transport

Kosako

Yamaguchi

Aranami

et al. 2009

Nat Struct Mol Biol

148

147

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Many extracellular signal-regulated kinase (ERK) mitogen-activated protein (MAP) kinase substrates have been identified, but the diversity of ERK-mediated processes suggests the existence of additional targets. Using a phosphoproteomic approach combining the steroid receptor fusion system, IMAC, 2D-DIGE and phosphomotif-specific antibodies, we detected 38 proteins showing reproducible phosphorylation changes between ERK-activated and ERK-inhibited samples, including 24 new candidate ERK targets. ERK directly phosphorylated at least 13 proteins in vitro. Of these, Nup50 was verified as a bona fide ERK substrate. Notably, ERK phosphorylation of the FG repeat region of Nup50 reduced its affinity for importin-beta family proteins, importin-beta and transportin. Other FG nucleoporins showed a similar functional change after ERK-mediated phosphorylation. Nuclear migration of importin-beta and transportin was impaired in ERK-activated, digitonin-permeabilized cells, as a result of ERK phosphorylation of Nup50. Thus, we propose that ERK phosphorylates various nucleoporins to regulate nucleocytoplasmic transport.

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Hikeshi, a Nuclear Import Carrier for Hsp70s, Protects Cells from Heat Shock-Induced Nuclear Damage

Kose

Furuta

Imamoto

2012

Cell

144

136

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During heat shock stress, importin β family-mediated nucleocytoplasmic trafficking is downregulated, whereas nuclear import of the molecular chaperone Hsp70s is upregulated. Here, we identify a nuclear import pathway that operates during heat shock stress and is mediated by an evolutionarily conserved protein named "Hikeshi," which does not belong to the importin β family. Hikeshi binds to FG-Nups and translocates through nuclear pores on its own, showing characteristic features of nuclear transport carriers. In reconstituted transport, Hikeshi supports the nuclear import of the ATP form of Hsp70s, but not the ADP form, indicating the importance of the Hsp70 ATPase cycle in the import cycle. In living cells, depletion of Hikeshi inhibits heat shock-induced nuclear import of Hsp70s, reduces cell viability after heat shock stress, and significantly delays the attenuation and reversion of multiple heat shock-induced nuclear phenotypes. Nuclear Hsp70s rescue the effect of Hikeshi depletion at least in part. Thus, Hsp70s counteract heat shock-induced damage by acting inside of the nucleus.

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Shingo Kose

In vivo evidence for involvement of a 58 kDa component of nuclear pore-targeting complex in nuclear protein import.

Transforming Growth Factor-β Induces Nuclear Import of Smad3 in an Importin-β1 and Ran-dependent Manner

Ran-unassisted Nuclear Migration of a 97-kD Component of Nuclear Pore–targeting Complex

Phosphoproteomics reveals new ERK MAP kinase targets and links ERK to nucleoporin-mediated nuclear transport

Hikeshi, a Nuclear Import Carrier for Hsp70s, Protects Cells from Heat Shock-Induced Nuclear Damage

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