A putative N-terminal nuclear export sequence is sufficient for Mps1 nuclear exclusion during interphase

The molecular basis of thymocyte negative selection, a crucial mechanism in establishing central tolerance, is not yet resolved. Histone deacetylases (HDACs) have emerged as key transcriptional regulators in several major developmental programs. Recently, we showed that the class IIa member, HDAC7, regulates negative selection by repressing expression of Nur77, an orphan nuclear receptor involved in antigen-induced apoptosis of thymocytes. Engagement of the T cell receptor (TCR) alleviates this repression through phosphorylation-dependent nuclear exclusion of HDAC7. However, the identity of the TCR-activated kinase that phosphorylates and inactivates HDAC7 was still unknown. Here, we demonstrate that TCR-induced nuclear export of HDAC7 and Nur77 expression is mediated by activation of protein kinase D (PKD). Indeed, active PKD stimulates HDAC7 nuclear export and Nur77 expression. In contrast, inhibition of PKD prevents TCR-mediated nuclear exclusion of HDAC7 and associated Nur77 activation. Furthermore, we show that HDAC7 is an interaction partner and a substrate for PKD. We identify four serine residues in the NH2 terminus of HDAC7 as targets for PKD. More importantly, a mutant of HDAC7 specifically deficient in phosphorylation by PKD, inhibits TCR-mediated apoptosis of T cell hybridomas. These findings indicate that PKD is likely to play a key role in the signaling pathways controlling negative selection.

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Ubiquitin Exposes the Nuclear Export Sequence

Science Signaling ◽

10.1126/stke.2001.110.tw438 ◽

2001 ◽

Vol 2001 (110) ◽

pp. tw438-tw438

Keyword(s):

Nuclear Export ◽

Nuclear Export Sequence

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Mutation of a Conserved Nuclear Export Sequence in Chikungunya Virus Capsid Protein Disrupts Host Cell Nuclear Import

Viruses ◽

10.3390/v9100306 ◽

2017 ◽

Vol 9 (10) ◽

pp. 306 ◽

Cited By ~ 2

Author(s):

Susan Jacobs ◽

Adam Taylor ◽

Lara Herrero ◽

Suresh Mahalingam ◽

John Fazakerley

Keyword(s):

Host Cell ◽

Capsid Protein ◽

Nuclear Import ◽

Nuclear Export ◽

Chikungunya Virus ◽

Virus Capsid ◽

Nuclear Export Sequence ◽

Virus Capsid Protein

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Fragile X Mental Retardation Protein FMRP Binds mRNAs in the Nucleus

Molecular and Cellular Biology ◽

10.1128/mcb.01377-08 ◽

2008 ◽

Vol 29 (1) ◽

pp. 214-228 ◽

Cited By ~ 67

Author(s):

Miri Kim ◽

Michel Bellini ◽

Stephanie Ceman

Keyword(s):

Mental Retardation ◽

Nuclear Export ◽

Rna Binding ◽

Fragile X ◽

Simian Virus 40 ◽

Nuclear Localization Sequence ◽

Dependent Manner ◽

Nuclear Export Sequence ◽

Fragile X Mental Retardation ◽

Mental Retardation Protein

ABSTRACT The fragile X mental retardation protein FMRP is an RNA binding protein that associates with a large collection of mRNAs. Since FMRP was previously shown to be a nucleocytoplasmic shuttling protein, we examined the hypothesis that FMRP binds its cargo mRNAs in the nucleus. The enhanced green fluorescent protein-tagged FMRP construct (EGFP-FMRP) expressed in Cos-7 cells was efficiently exported from the nucleus in the absence of its nuclear export sequence and in the presence of a strong nuclear localization sequence (the simian virus 40 [SV40] NLS), suggesting an efficient mechanism for nuclear export. We hypothesized that nuclear FMRP exits the nucleus through its bound mRNAs. Using silencing RNAs to the bulk mRNA exporter Tap/NXF1, we observed a significantly increased number of cells containing EGFP-FMRP in the nucleus, which was further augmented by removal of FMRP's nuclear export sequence. Nuclear-retained SV40-FMRP could be released upon treatment with RNase. Further, Tap/NXF1 coimmunoprecipitated with EGFP-FMRP in an RNA-dependent manner and contained the FMR1 mRNA. To determine whether FMRP binds pre-mRNAs cotranscriptionally, we expressed hemagglutinin-SV40 FMRP in amphibian oocytes and found it, as well as endogenous Xenopus FMRP, on the active transcription units of lampbrush chromosomes. Collectively, our data provide the first lines of evidence that FMRP binds mRNA in the nucleus.

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Reversible Oxidation of a Conserved Methionine in the Nuclear Export Sequence Determines Subcellular Distribution and Activity of the Fungal Nitrate Regulator NirA

PLoS Genetics ◽

10.1371/journal.pgen.1005297 ◽

2015 ◽

Vol 11 (7) ◽

pp. e1005297 ◽

Cited By ~ 17

Author(s):

Andreas Gallmetzer ◽

Lucia Silvestrini ◽

Thorsten Schinko ◽

Bernd Gesslbauer ◽

Peter Hortschansky ◽

...

Keyword(s):

Subcellular Distribution ◽

Nuclear Export ◽

Nuclear Export Sequence

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LZTS2 Is a Novel β-Catenin-Interacting Protein and Regulates the Nuclear Export of β-Catenin

Molecular and Cellular Biology ◽

10.1128/mcb.01031-06 ◽

2006 ◽

Vol 26 (23) ◽

pp. 8857-8867 ◽

Cited By ~ 43

Author(s):

Gregory Thyssen ◽

Tzu-Huey Li ◽

Lynn Lehmann ◽

Ming Zhuo ◽

Manju Sharma ◽

...

Keyword(s):

Nuclear Export ◽

Fluorescent Protein ◽

Glycogen Synthase ◽

Nuclear Export Signal ◽

Point Mutations ◽

Cellular Level ◽

Interacting Protein ◽

Nuclear Exclusion ◽

Green Fluorescent ◽

Wnt Signal

ABSTRACT β-Catenin plays multiple roles in cell-cell adhesion and Wnt signal transduction. Through the Wnt signal, the cellular level of β-catenin is constitutively regulated by the multicomponent destruction complex containing glycogen synthase kinase 3β, axin, and adenomatous polyposis coli. Here, we present multiple lines of evidence to demonstrate that LZTS2 (lucine zipper tumor suppressor 2) interacts with β-catenin, represses the transactivation of β-catenin, and affects the subcellular localization of β-catenin. The LZTS2 gene is located at 10q24.3, which is frequently lost in a variety of human tumors. A functional nuclear export signal (NES) was identified in the C terminus of the protein (amino acids 631 to 641). Appending this motif to green fluorescent protein (GFP) induced nuclear exclusion of the GFP fusion protein. However, introducing point mutations in either one or two leucine residues of this NES sequence abolished the nuclear exclusion of the LZTS2 protein. The nuclear export of LZTS2 can be blocked by leptomycin B (LMB), an inhibitor of the CRM1/exportin-alpha pathway. Intriguingly, β-catenin colocalizes with LZTS2 in the cytoplasm of cells in the absence of LMB but in the nuclei of cells in the presence of LMB. Increasing the LZTS2 protein in cells reduces the level of nuclear β-catenin in SW480 cells. Taken together, these data demonstrate that LZTS2 is a β-catenin-interacting protein that can modulate β-catenin signaling and localization.

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