Transportin Regulates Major Mitotic Assembly Events: From Spindle to Nuclear Pore Assembly

Lau, Chantal; Delmar, Valerie A.; Chan, Rene C.; Phung, Quang; Bernis, Cyril; Fichtman, Boris; Rasala, Beth A.; Forbes, Douglass J.

doi:10.1091/mbc.e09-02-0152

Cited by 57 publications

(99 citation statements)

References 156 publications

(286 reference statements)

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“…In this process, Importin proteins bind and inhibit factors such as HURP and TPX2, which are essential for microtubule spindle growth, and this inhibition is relieved by Ran-GTP Nachury et al, 2001;Wiese et al, 2001;Silljé et al, 2006). Although these roles have been ascribed for Importin 1 and its Importin- binding partners, Importin 2 might also have a role in mitotic spindle assembly (Lau et al, 2009). In this report and other recent reports, we also suggest a further role for Importin proteins in centrosomal and cilia targeting (Dishinger et al, 2010;Fan et al, 2007).…”

Section: Discussionsupporting

confidence: 70%

Localization of retinitis pigmentosa 2 to cilia is regulated by Importin β2

Hurd

Fan

Margolis

2011

Journal of Cell Science

116

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Ciliopathies represent a newly emerging group of human diseases that share a common etiology resulting from dysfunction of the cilium or centrosome. The gene encoding the retinitis pigmentosa 2 protein (RP2) is mutated in X-linked retinitis pigmentosa. RP2 localizes to the ciliary base and this requires the dual acylation of the N-terminus, but the precise mechanism by which RP2 is trafficked to the cilia is unknown. Here we have characterized an interaction between RP2 and Importin β2 (transportin-1), a member of the Importin-β family that regulates nuclear–cytoplasmic shuttling. We demonstrate that Importin β2 is necessary for localization of RP2 to the primary cilium because ablation of Importin β2 by shRNA blocks entry both of endogenous and exogenous RP2 to the cilium. Furthermore, we identify two distinct binding sites of RP2, which interact independently with Importin β2. One binding site is a nuclear localization signal (NLS)-like sequence that is located at the N-terminus of RP2 and the other is an M9-like sequence within the tubulin folding cofactor C (TBCC) domain. Mutation of the NLS-like consensus sequence did not abolish localization of RP2 to cilia, suggesting that the sequence is not essential for RP2 ciliary targeting. Interestingly, we found that several missense mutations that cause human disease fall within the M9-like sequence of RP2 and these mutations block entry of RP2 into the cilium, as well as its interaction with Importin β2. Together, this work further highlights a role of Importin β2 in regulation of the entry of RP2 and other proteins into the ciliary compartment.

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Section: Discussionsupporting

confidence: 70%

Localization of retinitis pigmentosa 2 to cilia is regulated by Importin β2

Hurd

Fan

Margolis

2011

Journal of Cell Science

116

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“…In Figure 4C, we probed for the presence of ELYS in our Nup107-160 immunoprecipitation to compare to published reports. [25][26][27] We found ELYS at 6 h and 9 h time points corresponding to S phase transition and the onset of mitosis (Fig. 4C).…”

Section: Resultsmentioning

confidence: 79%

“…[19][20][21][22][23][24] An additional non-Nup member may be ELYS, a putative transcription factor, which was also discovered to copurify with the Nup107-160 complex in Xenopus interphase extracts, Xenopus mitotic extracts and human cell extracts. [25][26][27] Positioned at the curvatures of the membrane embedding the NPC, the Nup107-160 subcomplex acts to stabilize these bends in the membrane. 28 This subcomplex has been classified as a keystone of NPC assembly and is required for assembly of a subset of Nups into the NPC.…”

Section: Introductionmentioning

confidence: 99%

The discovery of a Werner helicase interacting protein (WHIP) association with the nuclear pore complex

Kaur¹,

White²,

DiGuilio³

et al. 2010

Cell Cycle

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“…We and others have previously shown that importin-b negatively regulates several distinct steps in postmitotic NPC assembly, including chromatin seeding by ELYS-Nup107-160 (Harel et al, 2003a;Lau et al, 2009;Rotem et al, 2009;Walther et al, 2003). We next investigated whether importin-b was also capable of regulating the binding of POM121 DN to chromatin.…”

Section: Importin-b Negatively Regulates the Chromatin Binding Determmentioning

confidence: 99%

A dominant-negative form of POM121 binds chromatin and disrupts the two separate modes of nuclear pore assembly

Shaulov

Gruber

Cohen

et al. 2011

Journal of Cell Science

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SummaryNuclear pore complexes (NPCs) are formed during two separate stages of the metazoan cell cycle. They are assembled into the reforming nuclear envelope (NE) at the exit from mitosis and into an intact, expanding NE during interphase. Here, we show that a soluble internal fragment of the membrane nucleoporin POM121 has a dominant-negative effect on both modes of assembly in a cell-free reconstitution system. The soluble POM121 fragment binds chromatin at sites that are distinct from ELYS-Nup107-160 'seeding' sites and prevents membrane enclosure and NPC formation. Importin-b negatively regulates chromatin binding by the POM121 fragment through a conserved NLS motif and is also shown to affect the recruitment of the endogenous membrane protein to chromatin in the full assembly system. When an intact NE is present before the addition of the dominant-negative fragment, NPCs are inserted into the NE but membrane expansion is inhibited. This results in densely packed NPCs with no intervening membrane patches, as visualized by scanning electron microscopy. We conclude that POM121 plays an important role in both modes of assembly and links nuclear membrane formation and expansion to nuclear pore biogenesis.

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Transportin Regulates Major Mitotic Assembly Events: From Spindle to Nuclear Pore Assembly

Cited by 57 publications

References 156 publications

Localization of retinitis pigmentosa 2 to cilia is regulated by Importin β2

Localization of retinitis pigmentosa 2 to cilia is regulated by Importin β2

The discovery of a Werner helicase interacting protein (WHIP) association with the nuclear pore complex

A dominant-negative form of POM121 binds chromatin and disrupts the two separate modes of nuclear pore assembly

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