Your search keyword '"NUCLEAR pore complex"' showing total 95 results

1. Nuclear envelope assembly and dynamics during development.

Author

Hampoelz, Bernhard and Baumbach, Janina

Subjects

*NUCLEAR membranes, *ANIMAL development, *GENE expression, *SURFACE area, *CHROMATIN

Abstract

The nuclear envelope (NE) protects but also organizes the eukaryotic genome. In this review we will discuss recent literature on how the NE disassembles and reassembles, how it varies in surface area and protein composition and how this translates into chromatin organization and gene expression in the context of animal development. [ABSTRACT FROM AUTHOR]

Published

2023

2. Nucleoporins in cardiovascular disease.

Author

Burdine, Ryan D., Preston, Claudia C., Leonard, Riley J., Bradley, Tyler A., and Faustino, Randolph S.

Subjects

*NUCLEOPORINS, *CARDIOVASCULAR diseases, *MOLECULAR pathology, *CONGENITAL heart disease, *HEART diseases, *NUCLEAR membranes

Abstract

Cardiovascular disease is a pressing health problem with significant global health, societal, and financial burdens. Understanding the molecular basis of polygenic cardiac pathology is thus essential to devising novel approaches for management and treatment. Recent identification of uncharacterized regulatory functions for a class of nuclear envelope proteins called nucleoporins offers the opportunity to understand novel putative mechanisms of cardiac disease development and progression. Consistent reports of nucleoporin deregulation associated with ischemic and dilated cardiomyopathies, arrhythmias and valvular disorders suggests that nucleoporin impairment may be a significant but understudied variable in cardiopathologic disorders. This review discusses and converges existing literature regarding nuclear pore complex proteins and their association with cardiac pathologies, and proposes a role for nucleoporins as facilitators of cardiac disease. • The nuclear pore complex regulates development and disease of multiple systems via a variety of mechanisms. • Identification and consistent demonstration of nucleoporin dysfunction associated with clinical cardiac diseases. • Nucleoporins have potential roles in cardiomyopathy, arrhythmogensis, and congenital heart disease. • Molecular profiling facilitates systems biology understanding of relationships between nucleoporins and cardiopathogenesis. [ABSTRACT FROM AUTHOR]

Published

2020

3. Nucleocytoplasmic transport defects in neurodegeneration — Cause or consequence?

Author

Hutten, Saskia and Dormann, Dorothee

Subjects

*NUCLEAR transport, *HUNTINGTON disease, *AMYOTROPHIC lateral sclerosis, *CARRIER proteins, *PREMATURE aging (Medicine), *AUTOMOBILE defects

Abstract

Defects in nucleocytoplasmic transport have been associated with several neurodegenerative disorders and, in particular, the formation of pathological protein aggregates characteristic for the respective disease. However, whether impaired nucleocytoplasmic transport is a consequence of such aggregates or rather contributes to their formation is still mostly unclear. In this review, we summarize recent findings how both soluble and stationary components of the nucleocytoplasmic transport machinery are altered in neurodegenerative diseases, in particular amyotrophic lateral sclerosis (ALS), frontotemporal dementia (FTD), Alzheimer's disease (AD) and Huntington's disease (HD). We discuss the functional significance of the observed defects for nucleocytoplasmic transport of proteins and mRNAs. Moreover, we highlight interesting parallels observed in physiological ageing and the premature ageing syndrome progeria and propose that they that might provide mechanistic insights also for neurodegenerative processes. [ABSTRACT FROM AUTHOR]

Published

2020

4. POM121 inhibits the macrophage inflammatory response by impacting NF-κB P65 nuclear accumulation.

Author

Ge, Wenlong, Yue, Yan, and Xiong, Sidong

Subjects

*MACROPHAGE inflammatory proteins, *NUCLEAR pore complex, *MACROPHAGES, *NUCLEOPORINS, *NUCLEAR transport

Abstract

Abstract The nuclear pore membrane protein 121 (POM121) was originally thought to be a constitutive protein of the nuclear pore complex (NPC). In addition to being involved in NPC assembly, abnormal POM121 expression has been found to be associated with many diseases. In this study, we explored, in detail, the effect of POM121 on the macrophage inflammatory response and found that its expression was significantly lower in LPS-stimulated macrophages, substantially amplifying pro-inflammatory cytokine (TNF-α and IL-6) production, suggesting that POM121 exerts a potent inhibitory effect on macrophage inflammation. Consistent with this notion, greater susceptibility to LPS-induced acute lung injury (ALI) as well as more severe tissue inflammation were found in POM121fl/fl Lyzm-Cre+ mice compared to those in control mice, as evidenced by the more severe lung injury and inflammation, increased TNF-α and IL-6 production and more abundant proteins in bronchoalveolar lavage fluid (BALF). This inflammation-modulating effect of POM121 relied on its ability to repress the NF-κB signal pathway via inhibition of phosphorylated P65 (phos-P65) nuclear accumulation. In the present study, we reported that in addition to acting as a constitutive NPC component, POM121 also modulated LPS-induced macrophage inflammation via repressing nuclear P65 translocation. Our study may pave the way for regulating LPS-induced massive macrophage inflammation and providing evidence for the functional diversity of nucleoporins (Nups). Highlights • POM121 is down-regulated in LPS-stimulated macrophages. • POM121 inhibits the macrophage inflammatory response. • Macrophage POM121 deficient mice show more susceptibility to LPS-inducted acute lung injury. • POM121 selectively inhibits nuclear accumulation of NF-κB p65. [ABSTRACT FROM AUTHOR]

Published

2019

5. A user-interactive algorithm quantifying nuclear pore complex distribution within the nuclear lamina network in single molecular localization microscopic image.

Author

Lim, John S.Y., Wright, Graham D., Burke, Brian, and Xie, Wei

Subjects

*NUCLEAR pore complex, *SINGLE molecules, *FLUORESCENCE microscopy, *COMPUTATIONAL biology, *HIGH resolution imaging

Abstract

Highlights • The nuclear envelope resists quantitative study by conventional light microscopy. • Super-resolution images contain sufficient data to allow precise numerical analysis. • An algorithm to quantify nuclear pore complex and lamina distribution is described. • The algorithm can be easily adapted to the analysis of other cellular components. Abstract For decades, components of the mammalian nuclear envelope (NE), such as the nuclear lamina and nuclear pore complexes (NPCs), have been largely resistant to quantitative cell biological analysis using conventional fluorescence microscopy. This is in part due to their sub diffraction limit dimensions. Super-resolution microscopy, a major advancement in cell biology research, has now made possible the acquisition of images in which nuclear lamin networks and single NPCs can be resolved in intact mammalian somatic cells. In particular, single molecule localization microscopy is able to generate data sets that are accurate enough to allow detailed quantitative analysis. Here we describe an algorithm that will identify the centroid of single NPCs and will determine their localization relative to the distribution of lamin protein filaments. Using this algorithm, a percentage of NPCs localized within the nuclear lamin network was accurately calculated, that could be compared between cells expressing different lamin complements. With modifications tweaked according to user specified sample images, this algorithm serves as a semi-automatic and fast computational tool to quantify and compare the localization and distribution of two or more cellular components at the nanometre scale. [ABSTRACT FROM AUTHOR]

Published

2019

6. Nuclear export of mRNA molecules studied by SPEED microscopy.

Author

Li, Yichen, Junod, Samuel L., Ruba, Andrew, Kelich, Joseph M., and Yang, Weidong

Subjects

*NUCLEAR nonproliferation, *MESSENGER RNA, *NUCLEAR pore complex, *ELECTRON microscopy, *SINGLE molecules

Abstract

Graphical abstract Nuclear export of individual mRNAs through nuclear pore complexes revealed by SPEED microscopy. Abstract The nuclear exit of messenger RNA (mRNA) molecules through the nuclear pore complex (NPC) is an essential step in the translation process of all proteins. The current limitations of conventional fluorescence and electron microscopy have prevented elucidation of how mRNA exports through the NPCs of live cells. In the recent years, various single-molecule fluorescence (SMF) microscopy techniques have been developed to improve the temporal and spatial resolutions of live-cell imaging allowing a more comprehensive understanding of the dynamics of mRNA export through native NPCs. In this review, we firstly evaluate the necessity of single-molecule live-cell microscopy in the study of mRNA nuclear export. Then, we highlight the application of single-point edge-excitation sub-diffraction (SPEED) microscopy that combines high-speed SMF microscopy and a 2D-to-3D transformation algorithm in the studies of nuclear transport kinetics and route for mRNAs. Finally, we summarize the new features of mRNA nuclear export found with SPEED microscopy as well as the reliability and accuracy of SPEED microscopy in mapping the 3D spatial locations of transport routes adopted by proteins and mRNAs through the NPCs. [ABSTRACT FROM AUTHOR]

Published

2019

7. Aggregation, Phase Separation and Spatial Morphologies of the Assemblies of FG Nucleoporins.

Author

Zilman, Anton

Subjects

*NUCLEAR pore complex, *PHASE separation, *NUCLEOPORINS, *EUKARYOTIC cells, *NUCLEOCYTOPLASMIC interactions

Abstract

Abstract Nuclear pore complex (NPC) is a biomolecular "nanomachine" that controls nucleocytoplasmic transport in eukaryotic cells. The key component of the functional architecture of the NPC is the assembly of intrinsically disordered proteins that line its passageway and play a central role in the NPC transport mechanism. Due to paucity of experimental methods capable to directly probe the morphology of this assembly in intact NPCs, much of our knowledge about its properties derives from in vitro experiments augmented by theoretical and computational modeling. I review the major insights into the biophysics of the assemblies of the intrinsically disordered proteins of the NPC arising from the theoretical analysis of the recent in vitro experimental results, with the emphasis on the phase separation and aggregation phenomena. Graphical Abstract Unlabelled Image Highlights • Nuclear pore complex (NPC) is a biomolecular "nanomachine" that controls nucleocytoplasmic transport in eukaryotic cells. • The key component of the functional architecture of the NPC is the assembly of intrinsically disordered proteins that line its passageway. • Much of our knowledge about its properties derives from in vitro experiments on the assemblies of these intrinsically disordered proteins. • Theoretical and computational analysis of the experimental findings based on the statistical physics has pinpointed the key factors responsible for the spatial organization of the assemblies of the intrinsically disordered proteins of the NPC. [ABSTRACT FROM AUTHOR]

Published

2018

8. Nup159 Weakens Gle1 Binding to Dbp5 But Does Not Accelerate ADP Release.

Author

Wong, Emily V., Gray, Shawn, Cao, Wenxiang, Montpetit, Rachel, Montpetit, Ben, and De La Cruz, Enrique M.

Subjects

*NUCLEAR pore complex, *ADENOSINE diphosphate, *NUCLEOTIDE exchange factors, *MESSENGER RNA, *RIBOSOMAL RNA

Abstract

Dbp5, DDX19 in humans, is an essential DEAD-box protein involved in mRNA export, which has also been linked to other cellular processes, including rRNA export and translation. Dbp5 ATPase activity is regulated by several factors, including RNA, the nucleoporin proteins Nup159 and Gle1, and the endogenous small-molecule inositol hexakisphosphate (InsP 6 ). To better understand how these factors modulate Dbp5 activity and how this modulation relates to in vivo RNA metabolism, a detailed characterization of the Dbp5 mechanochemical cycle in the presence of those regulators individually or together is necessary. In this study, we test the hypothesis that Nup159 controls the ADP-bound state of Dbp5. In addition, the contributions of Mg 2+ to the kinetics and thermodynamics of ADP binding to Dbp5 were assessed. Using a solution based in vitro approach, Mg 2+ was found to slow ADP and ATP release from Dbp5 and increased the overall ADP and ATP affinities, as observed with other NTPases. Furthermore, Nup159 did not accelerate ADP release, while Gle1 actually slowed ADP release independent of Mg 2+ . These findings are not consistent with Nup159 acting as a nucleotide exchange factor to promote ADP release and Dbp5 ATPase cycling. Instead, in the presence of Nup159, the interaction between Gle1 and ADP-bound Dbp5 was found to be reduced by ~ 18-fold, suggesting that Nup159 alters the Dbp5–Gle1 interaction to aid Gle1 release from Dbp5. [ABSTRACT FROM AUTHOR]

Published

2018

9. Influence of acute promyelocytic leukemia therapeutic drugs on nuclear pore complex density and integrity.

Author

Lång, Anna, Øye, Alexander, Eriksson, Jens, Rowe, Alexander D., Lång, Emma, and Bøe, Stig Ove

Subjects

*ACUTE promyelocytic leukemia, *NUCLEAR pore complex, *CELL division, *NUCLEAR proteins, *CYTOPLASM, *NUCLEAR membranes

Abstract

During cell division, a large number of nuclear proteins are released into the cytoplasm due to nuclear envelope breakdown. Timely nuclear import of these proteins following exit from mitosis is critical for establishment of the G1 nuclear environment. Dysregulation of post-mitotic nuclear import may affect the fate of newly divided stem or progenitor cells and may lead to cancer. Acute promyelocytic leukemia (APL) is a malignant disorder that involves a defect in blood cell differentiation at the promyelocytic stage. Recent studies suggest that pharmacological concentrations of the APL therapeutic drugs, all-trans retinoic acid (ATRA) and arsenic trioxide (ATO), affect post-mitotic nuclear import of the APL-associated oncoprotein PML/RARA. In the present study, we have investigated the possibility that ATRA and ATO affect post-mitotic nuclear import through interference with components of the nuclear import machinery. We observe reduced density and impaired integrity of nuclear pore complexes after ATRA and/or ATO exposure. Using a post-mitotic nuclear import assay, we demonstrate distinct import kinetics among different nuclear import pathways while nuclear import rates were similar in the presence or absence of APL therapeutic drugs. [ABSTRACT FROM AUTHOR]

Published

2018

10. Role of the ribosomal quality control machinery in nucleocytoplasmic translocation of polyQ-expanded huntingtin exon-1.

Author

Zheng, Ju, Yang, Junsheng, Choe, Young-Jun, Hao, Xinxin, Cao, Xiuling, Zhao, Qian, Zhang, Yuejie, Franssens, Vanessa, Hartl, F. Ulrich, Nyström, Thomas, Winderickx, Joris, and Liu, Beidong

Subjects

*NUCLEOCYTOPLASMIC interactions, *HUNTINGTON disease, *RIBOSOMAL DNA, *CELL-mediated cytotoxicity, *NUCLEAR pore complex

Abstract

The subcellular localization of polyQ-expanded huntingtin exon1 (Httex1) modulates polyQ toxicity in models of Huntington's disease. Using genome-wide screens in a yeast model system, we report that the ribosome quality control (RQC) machinery, recently implicated in neurodegeneration, is a key determinant for the nucleocytoplasmic distribution of Httex1-103Q. Deletion of the RQC genes, LTN1 or RQC1, caused the accumulation of Httex1-103Q in the nucleus through a process that required the CAT-tail tagging activity of Rqc2 and transport via the nuclear pore complex. We provide evidence that nuclear accumulation of Httex1-103Q enhances its cytotoxicity, suggesting that the RQC machinery plays an important role in protecting cells against the adverse effects of polyQ expansion proteins. [ABSTRACT FROM AUTHOR]

Published

2017

11. Cryo-electron Microscopy Reveals the Structure of the Nuclear Pore Complex.

Author

Tai, Linhua, Yin, Guoliang, Sun, Fei, and Zhu, Yun

Subjects

*NUCLEAR structure, *ARTIFICIAL intelligence, *POROSITY, *MICROSCOPY, *ELECTRON microscopy, *ARCHITECTURAL history

Abstract

The nuclear pore complex (NPC) is a giant protein assembly that penetrates the double layers of the nuclear membrane.The great size and complexity of the NPC have hindered the study of its structure for many years until recent breakthroughs were achieved by integrating the latest high-resolution cryo-electron microscopy and emerging artificial intelligence modeling with all other available biophysical information. [Display omitted] • The cryo-EM method is indispensable to the structural determination of NPC. • The latest high-resolution structures of NPCs are reviewed in this paper. • The in situ studies of NPCs in functional states have become increasingly important. The nuclear pore complex (NPC) is a giant protein assembly that penetrates the double layers of the nuclear membrane. The overall structure of the NPC has approximately eightfold symmetry and is formed by approximately 30 nucleoporins. The great size and complexity of the NPC have hindered the study of its structure for many years until recent breakthroughs were achieved by integrating the latest high-resolution cryo-electron microscopy (cryo-EM), the emerging artificial intelligence-based modeling and all other available structural information from crystallography and mass spectrometry. Here, we review our latest knowledge of the NPC architecture and the history of its structural study from in vitro to in situ with progressively improved resolutions by cryo-EM, with a particular focus on the latest subnanometer-resolution structural studies. The future directions for structural studies of NPCs are also discussed. [ABSTRACT FROM AUTHOR]

Published

2023

12. Viral mechanisms for docking and delivering at nuclear pore complexes.

Author

Flatt, Justin W. and Greber, Urs F.

Subjects

*VIRAL genomes, *NUCLEAR pore complex, *MOLECULAR docking, *VIRAL replication, *NUCLEAR transport

Abstract

Some viruses possess the remarkable ability to transport their genomes across nuclear pore complexes (NPCs) for replication inside the host cell’s intact nuclear compartment. Viral mechanisms for crossing the restrictive NPC passageway are highly complex and astonishingly diverse, requiring in each case stepwise interaction between incoming virus particles and components of the nuclear transport machinery. Exactly how a large viral genome loaded with accessory proteins is able to pass through the relatively narrow central channel of the NPC without causing catastrophic structural damage is not yet fully understood. It appears likely, however, that the overall structure of the NPC changes in response to the cargo. Translocation may result in nucleic acids being misdelivered to the cytoplasm. Here we consider in detail the diverse strategies that viruses have evolved to target and subvert NPCs during infection. For decades, this process has both captivated and confounded researchers in the fields of virology, cell biology, and structural biology. [ABSTRACT FROM AUTHOR]

Published

2017

13. Floppy but not sloppy: Interaction mechanism of FG-nucleoporins and nuclear transport receptors.

Author

Aramburu, Iker Valle and Lemke, Edward A.

Subjects

*NUCLEOCYTOPLASMIC interactions, *NUCLEAR pore complex, *PERMEABILITY (Biology), *NUCLEAR receptors (Biochemistry), *PHENYLALANINE, *BIOMOLECULES

Abstract

The nuclear pore complex (NPC) forms a permeability barrier between the nucleus and the cytoplasm. Molecules that are able to cross this permeability barrier encounter different disordered phenylalanine glycine rich nucleoporins (FG-Nups) that act as a molecular filter and regulate the selective NPC crossing of biomolecules. In this review, we provide a current overview regarding the interaction mechanism between FG-Nups and the carrier molecules that recognize and enable the transport of cargoes through the NPC aiming to understand the general molecular mechanisms that facilitate the nucleocytoplasmic transport. [ABSTRACT FROM AUTHOR]

Published

2017

14. The roles of the nuclear pore complex in cellular dysfunction, aging and disease.

Author

Sakuma, Stephen and D’Angelo, Maximiliano A.

Subjects

*NUCLEAR pore complex, *CELL physiology, *CELLULAR aging, *NUCLEOCYTOPLASMIC interactions, *DISEASE progression

Abstract

The study of the Nuclear Pore Complex (NPC), the proteins that compose it (nucleoporins), and the nucleocytoplasmic transport that it controls have revealed an unexpected layer to pathogenic disease onset and progression. Recent advances in the study of the regulation of NPC composition and function suggest that the precise control of this structure is necessary to prevent diseases from arising or progressing. Here we discuss the role of nucleoporins in a diverse set of diseases, many of which directly or indirectly increase in occurrence and severity as we age, and often shorten the human lifespan. NPC biology has been shown to play a direct role in these diseases and therefore in the process of healthy aging. [ABSTRACT FROM AUTHOR]

Published

2017

15. Structural dynamics of the nuclear pore complex.

Author

Sakiyama, Yusuke, Panatala, Radhakrishnan, and Lim, Roderick Y.H.

Subjects

*STRUCTURAL dynamics, *NUCLEAR pore complex, *MACROMOLECULES, *NUCLEOPORINS, *CYTOPLASMIC filaments

Abstract

Nuclear pore complexes (NPCs) are the sole conduits that facilitate macromolecular exchange between the nucleus and cytosol. Recent advancements have led to a more highly resolved NPC structure. However, our understanding of the NPC modus operandi that facilitates transport selectivity, and speed, of diverse cargoes remains incomplete. For the most part, assorted cargo-complexes of different sizes traverse the NPC central channel in milliseconds, yet little is known about the nanoscopic movements of its barrier-forming Phe-Gly nucleoporins (FG Nups) and related sub-structures at transport-relevant time and length scales. Here, we discuss how dynamic FG Nup behavior may confer NPCs with an effective permeability barrier according to the functional needs of the cell. Moreover, we postulate that structural flexibility might resonate throughout the NPC framework from the cytoplasmic filaments to the nuclear basket. [ABSTRACT FROM AUTHOR]

Published

2017

16. Nuclear pore complex tethers to the cytoskeleton.

Author

Goldberg, Martin W.

Subjects

*NUCLEAR pore complex, *CYTOSKELETON, *NUCLEAR membranes, *MICROTUBULES, *CELL cycle regulation

Abstract

The nuclear envelope is tethered to the cytoskeleton. The best known attachments of all elements of the cytoskeleton are via the so-called LINC complex. However, the nuclear pore complexes, which mediate the transport of soluble and membrane bound molecules, are also linked to the microtubule network, primarily via motor proteins (dynein and kinesins) which are linked, most importantly, to the cytoplasmic filament protein of the nuclear pore complex, Nup358, by the adaptor BicD2. The evidence for such linkages and possible roles in nuclear migration, cell cycle control, nuclear transport and cell architecture are discussed. [ABSTRACT FROM AUTHOR]

Published

2017

17. Biomechanics of the transport barrier in the nuclear pore complex.

Author

Stanley, George J., Fassati, Ariberto, and Hoogenboom, Bart W.

Subjects

*BIOMECHANICS, *NUCLEAR pore complex, *BIOLOGICAL transport, *GENE expression, *NUCLEAR transport, *MOLECULAR chaperones

Abstract

The nuclear pore complex (NPC) is the selective gateway through which all molecules must pass when entering or exiting the nucleus. It is a cog in the gene expression pathway, an entrance to the nucleus exploited by viruses, and a highly-tuned nanoscale filter. The NPC is a large proteinaceous assembly with a central lumen occluded by natively disordered proteins, known as FG-nucleoporins (or FG-nups). These FG-nups, along with a family of soluble proteins known as nuclear transport receptors (NTRs), form the selective transport barrier. Although much is known about the transport cycle and the necessity of NTRs for chaperoning cargo molecules through the NPC, the mechanism by which NTRs and NTR•cargo complexes translocate the selective transport barrier is not well understood. How can disordered FG-nups and soluble NTRs form a transport barrier that is selective, ATP-free, and fast? In this work, we review various mechanical approaches – both experimental and theoretical/computational – employed to better understand the morphology of the FG-nups, and their role in nucleocytoplasmic transport. Recent experiments on FG-nups tethered to planar surfaces, coupled with quantitative modelling work suggests that FG-nup morphologies are the result of a finely balanced system with significant contributions from FG-nup cohesiveness and entropic repulsion, and from NTR•FG-nup binding avidity; whilst AFM experiments on intact NPCs suggest that the FG-nups are sufficiently cohesive to form condensates in the centre of the NPC lumen, which may transiently dissolve to facilitate the transport of larger cargoes. [ABSTRACT FROM AUTHOR]

Published

2017

18. The functional versatility of the nuclear pore complex proteins.

Author

Hezwani, Mohammed and Fahrenkrog, Birthe

Subjects

*NUCLEAR pore complex, *NUCLEAR proteins, *GENE expression, *MITOSIS, *DEVELOPMENTAL biology

Abstract

Over the past few decades, it is increasingly evident that nucleoporins are multi-functional proteins that are not only pivotal for the formation of the nuclear pore complex. They also have key roles in mitosis, gene expression, development and disease. In this review, the versatility and functions of nucleoporins outside the NPC will be discussed. [ABSTRACT FROM AUTHOR]

Published

2017

19. Functional implication of the common evolutionary origin of nuclear pore complex and endomembrane management systems.

Author

Liashkovich, Ivan and Shahin, Victor

Subjects

*NUCLEAR pore complex, *INTRACELLULAR membranes, *BIOLOGICAL evolution, *PERMEABILITY (Biology), *ACTIVE biological transport

Abstract

Nuclear pore complexes (NPCs) are the sole gateway between the cytoplasm and the nucleus serving both as stringent permeability barrier and active transporters between the two compartments of eukaryotic cells. Complete mechanistic understanding of how these two functions are implemented within one and the same transport machine has not been attained to date. Based on several lines of structural evidence, a hypothesis was proposed postulating that NPCs shares common evolutionary origin with other intracellular systems responsible for active management of endomembranes. In this review we attempt to summarize the evidence supporting this hypothesis. The structural data obtained so far is evaluated and supplemented with the analysis of the functional evidence. Based on this analysis, a model is proposed which integrates the knowledge from the field of NPC function with that obtained from other endomembrane management systems in an attempt to shed new light on the mechanism of the NPC active transport. [ABSTRACT FROM AUTHOR]

Published

2017

20. Strategic disruption of nuclear pores structure, integrity and barrier for nuclear apoptosis.

Author

Shahin, Victor

Subjects

*NUCLEAR pore complex, *APOPTOSIS, *PATHOLOGICAL physiology, *CELLULAR signal transduction, *MOLECULAR structure

Abstract

Apoptosis is a programmed cell death playing key roles in physiology and pathophysiology of multi cellular organisms. Its nuclear manifestation requires transmission of the death signals across the nuclear pore complexes (NPCs). In strategic sequential steps apoptotic factors disrupt NPCs structure, integrity and barrier ultimately leading to nuclear breakdown. The present review reflects on these steps. [ABSTRACT FROM AUTHOR]

Published

2017

21. Kinetics of transport through the nuclear pore complex.

Author

Kubitscheck, Ulrich and Siebrasse, Jan-Peter

Subjects

*NUCLEAR pore complex, *SINGLE molecule detection, *MESSENGER RNA, *NUCLEAR transport, *DEVELOPMENTAL biology

Abstract

Single molecule microscopy techniques allow to visualize the translocation of single transport receptors and cargo molecules or particles through nuclear pore complexes. These data indicate that cargo molecule import into the nucleus takes less than 10 ms and nuclear export of messenger RNA (mRNA) particles takes 50–350 ms, up to several seconds for extremely bulky particles. This review summarizes and discusses experimental results on transport of nuclear transport factor 2 (NTF2), importin β and mRNA particles. Putative regulatory functions of importin β for the NPC transport mechanism and the RNA helicase Dbp5 for mRNA export kinetics are discussed. [ABSTRACT FROM AUTHOR]

Published

2017

22. Function of Nup98 subtypes and their fusion proteins, Nup98-TopIIβ and Nup98-SETBP1 in nuclear-cytoplasmic transport.

Author

Saito, Shoko, Yokokawa, Takafumi, Iizuka, Gemmei, Cigdem, Sadik, Okuwaki, Mitsuru, and Nagata, Kyosuke

Subjects

*NUCLEAR pore complex, *CHIMERIC proteins, *NEOPLASTIC cell transformation, *CELL migration, *CHROMOSOMAL translocation, *HEMATOLOGIC malignancies

Abstract

Nup98 is a component of the nuclear pore complex. The nup98 -fusion genes derived by chromosome translocations are involved in hematopoietic malignancies. Here, we investigated the functions of Nup98 isoforms and two unexamined Nup98-fusion proteins, Nup98-TopIIβ and Nup98-SETBP1. We first demonstrated that two Nup98 isoforms are expressed in various mouse tissues and similarly localized in the nucleus and the nuclear envelope. We also showed that Nup98-TopIIβ and Nup98-SETBP1 are localized in the nucleus and partially co-localized with full-length Nup98 and a nuclear export receptor XPO1. We demonstrated that Nup98-TopIIβ and Nup98-SETBP1 negatively regulate the XPO1-mediated protein export. Our results will contribute to the understanding of the molecular mechanism by which the Nup98-fusion proteins induce tumorigenesis. [ABSTRACT FROM AUTHOR]

Published

2017

23. Automatic segmentation of high pressure frozen and freeze-substituted mouse retina nuclei from FIB-SEM tomograms.

Author

Hoang, Thai V., Kizilyaprak, Caroline, Spehner, Danièle, Humbel, Bruno M., and Schultz, Patrick

Subjects

*CELL nuclei, *RETINA analysis, *SCANNING electron microscopy, *HIGH pressure (Technology), *NUCLEAR pore complex, *PHOTORECEPTORS

Abstract

Focused Ion Beam milling combined with Scanning Electron Microscopy is a powerful tool to determine the 3-D organization of whole cells and tissue at an isotropic resolution of 3–5 nm. This opens the possibility to quantify several cellular parameters and to provide detailed phenotypic information in normal or disease states. Here we describe Biocomputing methods to extract in an automated way characteristic features of mouse rod photoreceptor nuclei such as the shape and the volume of the nucleus; the proportion of heterochromatin; the number, density and distribution of nuclear pore complexes (NPC). Values obtained on five nuclei show that the number of NPC (348 ± 8) is the most conserved feature. Nuclei in higher eukaryotes show large variations in size and rod nuclei are amongst the smallest reported (32 ± 3 μm 3 ). Despite large species- and cell-type-specific variations in size, the density of NPC (about 15/μm 2 ) is highly conserved. [ABSTRACT FROM AUTHOR]

Published

2017

24. Structures of the Karyopherins Kap121p and Kap60p Bound to the Nuclear Pore-Targeting Domain of the SUMO Protease Ulp1p.

Author

Hirano, Hidemi, Kobayashi, Junya, and Matsuura, Yoshiyuki

Subjects

*KARYOPHERINS, *NUCLEAR pore complex, *SMALL ubiquitin-related modifier proteins, *BIOCONJUGATES, *CELL division, *DNA repair, *DNA replication

Abstract

The budding yeast small ubiquitin-like modifier (SUMO) protease Ulp1p catalyzes both the processing of newly synthesized SUMO to its mature form and the deconjugation of SUMO from target proteins, thereby regulating a wide range of cellular processes including cell division, DNA repair, DNA replication, transcription, and mRNA quality control. Ulp1p is localized primarily at the nuclear pore complex (NPC) through interactions involving the karyopherins Kap121p and Kap95p–Kap60p heterodimer and a subset of nuclear pore-associated proteins. The sequestration of Ulp1p at the nuclear periphery is crucial for the proper control of protein desumoylation. To gain insights into the role of the karyopherins in regulating the localization of Ulp1p, we have determined the crystal structures of Kap121p and Kap60p bound to the N-terminal non-catalytic domain of Ulp1p that is necessary and sufficient for NPC targeting. Contrary to a previous proposal that Ulp1p is tethered to the transport channel of the NPC through unconventional interactions with the karyopherins, our structures reveal that Ulp1p has canonical nuclear localization signals (NLSs): (1) an isoleucine-lysine-NLS (residues 51–55) that binds to the NLS-binding site of Kap121p, and (2) a classical bipartite NLS (residues 154–172) that binds to the major and minor NLS-binding sites of Kap60p. Ulp1p also binds Kap95p directly, and the Ulp1p–Kap95p binding is enhanced by the importin-β-binding domain of Kap60p. GTP-bound Gsp1p (the yeast Ran ortholog) and the exportin Cse1p cooperate to release Ulp1p from the karyopherins, indicating that the stable sequestration of Ulp1p to the NPC would require a karyopherin-independent mechanism to anchor Ulp1p at the NPC. [ABSTRACT FROM AUTHOR]

Published

2017

25. The development of a single molecule fluorescence standard and its application in estimating the stoichiometry of the nuclear pore complex.

Author

Tie, Hieng Chiong, Madugula, Viswanadh, and Lu, Lei

Subjects

*SINGLE molecules, *STOICHIOMETRY, *NUCLEAR pore complex, *CONFOCAL microscopy, *NITRILOTRIACETIC acid

Abstract

We report here an image-based method to quantify the stoichiometry of diffraction-limited sub-cellular protein complexes in vivo under spinning disk confocal microscopy. A GFP single molecule fluorescence standard was first established by immobilizing His-tagged GFP molecules onto the glass surface via nickel nitrilotriacetic acid functionalized polyethylene glycol. When endogenous nucleoporins were knocked down and replaced by the exogenously expressed and knockdown-resistant GFP-nucleoporins, the stoichiometry of the nucleoporin was estimated by the ratio of its fluorescence intensity to that of the GFP single molecules. Our measured stoichiometry of Nup35, Nup93, Nup133 and Nup88 is 23, 18, 14 and 9 and there are possibly16 copies of Nup107-160 complex per nuclear pore complex. [ABSTRACT FROM AUTHOR]

Published

2016

26. Nuclear Reformation at the End of Mitosis.

Author

Schellhaus, Anna Katharina, De Magistris, Paola, and Antonin, Wolfram

Subjects

*NUCLEAR proteins, *MITOSIS, *NUCLEAR membranes, *CHROMATIN, *GENETIC transcription, *DNA analysis

Abstract

Cells have developed highly sophisticated ways to accurately pass on their genetic information to the daughter cells. In animal cells, which undergo open mitosis, the nuclear envelope breaks down at the beginning of mitosis and the chromatin massively condenses to be captured and segregated by the mitotic spindle. These events have to be reverted in order to allow the reformation of a nucleus competent for DNA transcription and replication, as well as all other nuclear processes occurring in interphase. Here, we summarize our current knowledge of how, in animal cells, the highly compacted mitotic chromosomes are decondensed at the end of mitosis and how a nuclear envelope, including functional nuclear pore complexes, reassembles around these decondensing chromosomes. [ABSTRACT FROM AUTHOR]

Published

2016

27. Deciphering the Structure and Function of Nuclear Pores Using Single-Molecule Fluorescence Approaches.

Author

Musser, Siegfried M. and Grünwald, David

Subjects

*PROTEIN structure, *NUCLEAR proteins, *SINGLE molecules, *NUCLEOCYTOPLASMIC interactions, *FLUORESCENCE, *FLUORESCENCE microscopy

Abstract

Due to its central role in macromolecular trafficking and nucleocytoplasmic information transfer, the nuclear pore complex (NPC) has been studied in great detail using a wide spectrum of methods. Consequently, many aspects of its architecture, general function, and role in the life cycle of a cell are well understood. Over the last decade, fluorescence microscopy methods have enabled the real-time visualization of single molecules interacting with and transiting through the NPC, allowing novel questions to be examined with nanometer precision. While initial single-molecule studies focused primarily on import pathways using permeabilized cells, it has recently proven feasible to investigate the export of mRNAs in living cells. Single-molecule assays can address questions that are difficult or impossible to answer by other means, yet the complexity of nucleocytoplasmic transport requires that interpretation be based on a firm genetic, biochemical, and structural foundation. Moreover, conceptually simple single-molecule experiments remain technically challenging, particularly with regard to signal intensity, signal-to-noise ratio, and the analysis of noise, stochasticity, and precision. We discuss nuclear transport issues recently addressed by single-molecule microscopy, evaluate the limits of existing assays and data, and identify open questions for future studies. We expect that single-molecule fluorescence approaches will continue to be applied to outstanding nucleocytoplasmic transport questions, and that the approaches developed for NPC studies are extendable to additional complex systems and pathways within cells. [ABSTRACT FROM AUTHOR]

Published

2016

28. Structure Determination of the Nuclear Pore Complex with Three-Dimensional Cryo electron Microscopy.

Author

von Appen, Alexander and Beck, Martin

Subjects

*PROTEIN structure, *NUCLEAR proteins, *ELECTRON microscopy, *MEMBRANE proteins, *CELL nuclei, *SACCHAROMYCES cerevisiae

Abstract

Determining the structure of the nuclear pore complex (NPC) imposes an enormous challenge due to its size, intricate composition and membrane-embedded nature. In vertebrates, about 1000 protein building blocks assemble into a 110-MDa complex that fuses the inner and outer membranes of a cell's nucleus. Here, we review the recent progress in understanding the in situ architecture of the NPC with a specific focus on approaches using three-dimensional cryo electron microscopy. We discuss technological benefits and limitations and give an outlook toward obtaining a high-resolution structure of the NPC. [ABSTRACT FROM AUTHOR]

Published

2016

29. Nucleocytoplasmic Transport of RNAs and RNA–Protein Complexes.

Author

Sloan, Katherine E., Gleizes, Pierre-Emmanuel, and Bohnsack, Markus T.

Subjects

*NUCLEOCYTOPLASMIC interactions, *RIBONUCLEASES, *RNA-protein interactions, *NUCLEOPROTEINS, *GENE expression, *EUKARYOTES

Abstract

RNAs and ribonucleoprotein complexes (RNPs) play key roles in mediating and regulating gene expression. In eukaryotes, most RNAs are transcribed, processed and assembled with proteins in the nucleus and then either function in the cytoplasm or also undergo a cytoplasmic phase in their biogenesis. This compartmentalization ensures that sequential steps in gene expression and RNP production are performed in the correct order and it allows important quality control mechanisms that prevent the involvement of aberrant RNAs/RNPs in these cellular pathways. The selective exchange of RNAs/RNPs between the nucleus and cytoplasm is enabled by nuclear pore complexes, which function as gateways between these compartments. RNA/RNP transport is facilitated by a range of nuclear transport receptors and adaptors, which are specifically recruited to their cargos and mediate interactions with nucleoporins to allow directional translocation through nuclear pore complexes. While some transport factors are only responsible for the export/import of a certain class of RNA/RNP, others are multifunctional and, in the case of large RNPs, several export factors appear to work together to bring about export. Recent structural studies have revealed aspects of the mechanisms employed by transport receptors to enable specific cargo recognition, and genome-wide approaches have provided the first insights into the diverse composition of pre-mRNPs during export. Furthermore, the regulation of RNA/RNP export is emerging as an important means to modulate gene expression under stress conditions and in disease. [ABSTRACT FROM AUTHOR]

Published

2016

30. The Structure Inventory of the Nuclear Pore Complex.

Author

Schwartz, Thomas U.

Subjects

*PROTEIN structure, *NUCLEAR pore complex, *NUCLEAR proteins, *CELL nuclei, *NUCLEAR membranes, *CYTOPLASM

Abstract

The nuclear pore complex (NPC) is the principal gateway for molecular exchange between nucleus and cytoplasm across the nuclear envelope. Due to its sheer size of estimated 50–112 MDa and its complex buildup from about 500–1000 individual proteins, it is a difficult object to study for structural biologists. Here, I review the extensive ensemble of high-resolution structures of the building blocks of the NPC. Concurrent with the increase in size and complexity, these latest, large structures and assemblies can now be used as the basis for hybrid approaches, primarily in combination with cryo-electron microscopic analysis, generating the first structure-based assembly models of the NPC. Going forward, the structures will be critically important for a detailed analysis of the NPC, including function, evolution, and assembly. [ABSTRACT FROM AUTHOR]

Published

2016

31. Mechanistic Insights from Structural Analyses of Ran-GTPase-Driven Nuclear Export of Proteins and RNAs.

Author

Matsuura, Yoshiyuki

Subjects

*PROTEIN structure, *GUANOSINE triphosphatase, *NUCLEAR nonproliferation, *RIBONUCLEASES, *CYTOPLASM, *MACROMOLECULES

Abstract

Understanding how macromolecules are rapidly exchanged between the nucleus and the cytoplasm through nuclear pore complexes is a fundamental problem in biology. Exportins are Ran-GTPase-dependent nuclear transport factors that belong to the karyopherin-β family and mediate nuclear export of a plethora of proteins and RNAs, except for bulk mRNA nuclear export. Exportins bind cargo macromolecules in a Ran-GTP-dependent manner in the nucleus, forming exportin-cargo-Ran-GTP complexes (nuclear export complexes). Transient weak interactions between exportins and nucleoporins containing characteristic FG (phenylalanine-glycine) repeat motifs facilitate nuclear pore complex passage of nuclear export complexes. In the cytoplasm, nuclear export complexes are disassembled, thereby releasing the cargo. GTP hydrolysis by Ran promoted in the cytoplasm makes the disassembly reaction virtually irreversible and provides thermodynamic driving force for the overall export reaction. In the past decade, X-ray crystallography of some of the exportins in various functional states coupled with functional analyses, single-particle electron microscopy, molecular dynamics simulations, and small-angle solution X-ray scattering has provided rich insights into the mechanism of cargo binding and release and also begins to elucidate how exportins interact with the FG repeat motifs. The knowledge gained from structural analyses of nuclear export is being translated into development of clinically useful inhibitors of nuclear export to treat human diseases such as cancer and influenza. [ABSTRACT FROM AUTHOR]

Published

2016

32. Calreticulin secures calcium-dependent nuclear pore competency required for cardiogenesis.

Author

Faustino, Randolph S., Behfar, Atta, Groenendyk, Jody, Wyles, Saranya P., Niederlander, Nicolas, Reyes, Santiago, Puceat, Michel, Michalak, Marek, Terzic, Andre, and Perez-Terzic, Carmen

Subjects

*CALRETICULIN, *NUCLEAR pore complex, *HEART development, *PHENOTYPES, *MOLECULAR chaperones

Abstract

Calreticulin deficiency causes myocardial developmental defects that culminate in an embryonic lethal phenotype. Recent studies have linked loss of this calcium binding chaperone to failure in myofibrillogenesis through an as yet undefined mechanism. The purpose of the present study was to identify cellular processes corrupted by calreticulin deficiency that precipitate dysregulation of cardiac myofibrillogenesis related to acquisition of cardiac phenotype. In an embryonic stem cell knockout model, calreticulin deficit ( crt − / − ) compromised nucleocytoplasmic transport of nuclear localization signal-dependent and independent pathways, disrupting nuclear import of the cardiac transcription factor MEF2C. The expression of nucleoporins and associated nuclear transport proteins in derived crt − / − cardiomyocytes revealed an abnormal nuclear pore complex (NPC) configuration. Altered protein content in crt − / − cells resulted in remodeled NPC architecture that caused decreased pore diameter and diminished probability of central channel occupancy versus wild type counterparts. Ionophore treatment of impaired calcium handling in crt − / − cells corrected nuclear pore microarchitecture and rescued nuclear import resulting in normalized myofibrillogenesis. Thus, calreticulin deficiency alters nuclear pore function and structure, impeding myofibrillogenesis in nascent cardiomyocytes through a calcium dependent mechanism. This essential role of calreticulin in nucleocytoplasmic communication competency ties its regulatory action with proficiency of cardiac myofibrillogenesis essential for proper cardiac development. [ABSTRACT FROM AUTHOR]

Published

2016

33. Cardiovirus Leader proteins bind exportins: Implications for virus replication and nucleocytoplasmic trafficking inhibition.

Author

Ciomperlik, Jessica J., Basta, Holly A., and Palmenberg, Ann C.

Subjects

*VIRAL proteins, *VIRAL replication, *NUCLEOCYTOPLASMIC interactions, *NUCLEAR pore complex, *NUCLEAR proteins, *ENCEPHALOMYOCARDITIS virus, *GENETIC mutation

Abstract

Cardiovirus Leader proteins (L X ) inhibit cellular nucleocytoplasmic trafficking by directing host kinases to phosphorylate Phe/Gly-containing nuclear pore proteins (Nups). Resolution of the Mengovirus L M structure bound to Ran GTPase, suggested this complex would further recruit specific exportins (karyopherins), which in turn mediate kinase selection. Pull-down experiments and recombinant complex reconstitution now confirm that Crm1 and CAS exportins form stable dimeric complexes with encephalomyocarditis virus L E , and also larger complexes with L E :Ran. shRNA knockdown studies support this idea. Similar activities could be demonstrated for recombinant L S and L T from Theiloviruses. When mutations were introduced to alter the L E zinc finger domain, acidic domain, or dual phosphorylation sites, there was reduced exportin selection. These regions are not involved in Ran interactions, so the Ran and Crm1 binding sites on L E must be non-overlapping. The involvement of exportins in this mechanism is important to viral replication and the observation of trafficking inhibition by L E . [ABSTRACT FROM AUTHOR]

Published

2016

34. SUN4 is essential for nuclear remodeling during mammalian spermiogenesis.

Author

Calvi, Alessandra, Wong, Arnette Shi Wei, Wright, Graham, Wong, Esther Sook Miin, Loo, Tsui Han, Stewart, Colin L., and Burke, Brian

Subjects

*SPERMIOGENESIS in animals, *CHROMATIN, *NUCLEAR pore complex, *MICROTUBULES, *NUCLEAR membranes

Abstract

One of the more dramatic examples of cellular reorganization occurs during spermiogenesis in which a roughly spherical spermatid is transformed into a mature sperm cell. A highlight of this process involves nuclear remodeling whereby the round spermatid nucleus is sculpted into an elongated and polar structure. This transformation in nuclear architecture features chromatin condensation, changes in the composition and organization of the nuclear lamina and redistribution and elimination of nuclear pore complexes. The manchette, a cytoplasmic microtubule-based structure is thought to play a crucial role in the remodeling process. Here we show that SUN4, a spermatid nuclear membrane protein has an essential function in coupling the manchette to the nuclear periphery. In the absence of SUN4, manchette microtubules appear highly disorganized and the nucleus itself fails to elongate. Consequently, mice deficient in SUN4 display globozoospermia with associated infertility. [ABSTRACT FROM AUTHOR]

Published

2015

35. Expansion microscopy at the nanoscale: The nuclear pore complex as a fiducial landmark

Author

Paolo Bianchini, Alberto Diaspro, and Luca Pesce

Subjects

Nucleoplasmic reticulum, Nanotechnology, Biology, ExSTED, law.invention, 03 medical and health sciences, Optical microscope, law, Microscopy, Nup153, Nuclear pore, Nanoscopic scale, 030304 developmental biology, chemistry.chemical_classification, Cell Nucleus, 0303 health sciences, Biomolecule, Isotropy, STED microscopy, Nuclear lamina, Proteins, Hydrogels, Hutchinson-Gilford progeria syndrome, Nuclear pore complex, STED, chemistry, Nuclear Pore

Abstract

Expansion microscopy (ExM) is a magnification method that allows achieving super-resolved images using a conventional light microscope. In ExM, biomolecules, fluorescent proteins, and dyes are functionalized with specific handles to link a dense polyelectrolyte hydrogel, which can achieve an isotropic expansion of 4.5-fold in water. The use of ExM coupled with STED nanoscopy allows examining macromolecular machinery in life science, like the nuclear pore complex (NPC). In particular, in this chapter, we show a general protocol for labeling one of its subunit, i.e. the Nup153. Such method shows the nanoscale isotropy of the expansion process and enables precise measurement of the expansion factor. Finally, we used ExM for the visualization of a peculiar nuclear invagination in normal and aged cells.

Published

2021

36. An Ancient Autoproteolytic Domain Found in GAIN, ZU5 and Nucleoporin98.

Author

Liao, Yuxing, Pei, Jimin, Cheng, Hua, and Grishin, Nick V.

Subjects

*PROTEOLYSIS, *NUCLEAR pore complex, *G protein coupled receptors, *CELL adhesion, *POLYCYSTIC kidney disease, *SEQUENCE analysis

Abstract

A large family of G protein-coupled receptors (GPCRs) involved in cell adhesion has a characteristic autoproteolysis motif of HLT/S known as the GPCR proteolysis site (GPS). GPS is also shared by polycystic kidney disease proteins and it precedes the first transmembrane segment in both families. Recent structural studies have elucidated the GPS to be part of a larger domain named GPCR autoproteolysis inducing (GAIN) domain. Here we demonstrate the remote homology relationships of GAIN domain to ZU5 domain and Nucleoporin98 (Nup98) C-terminal domain by structural and sequence analysis. Sequence homology searches were performed to extend ZU5-like domains to bacteria and archaea, as well as new eukaryotic families. We found that the consecutive ZU5-UPA-death domain domain organization is commonly used in human cytoplasmic proteins with ZU5 domains, including CARD8 ( ca spase r ecruitment d omain-containing protein 8 ) and NLRP1 ( N ACHT, LR R and P YD domain-containing protein 1 ) from the FIIND (Function to Find) family. Another divergent family of extracellular ZU5-like domains was identified in cartilage intermediate layer proteins and FAM171 proteins. Current diverse families of GAIN domain subdomain B, ZU5 and Nup98 C-terminal domain likely evolved from an ancient autoproteolytic domain with an HFS motif. The autoproteolytic site was kept intact in Nup98, p53-induced protein with a death domain and UNC5C-like, deteriorated in many ZU5 domains and changed in GAIN and FIIND. Deletion of the strand after the cleavage site was observed in zonula occluden-1 and some Nup98 homologs. These findings link several autoproteolytic domains, extend our understanding of GAIN domain origination in adhesion GPCRs and provide insights into the evolution of an ancient autoproteolytic domain. [ABSTRACT FROM AUTHOR]

Published

2014

37. Mechanisms of mRNA export.

Author

Björk, Petra and Wieslander, Lars

Subjects

*MESSENGER RNA, *GENETIC transcription, *CHROMATIN, *NUCLEAR pore complex, *GENE expression, *CYTOPLASM, *PHYSIOLOGY

Abstract

Release of properly processed and assembled mRNPs from the actively transcribing genes, movement of the mRNPs through the interchromatin and interaction with the Nuclear Pore Complexes, leading to cytoplasmic export, are essential steps of eukaryotic gene expression. Here, we review these intranuclear gene expression steps. [ABSTRACT FROM AUTHOR]

Published

2014

38. Inhibition of CRM1-dependent nuclear export sensitizes malignant cells to cytotoxic and targeted agents.

Author

Turner, Joel G., Dawson, Jana, Cubitt, Christopher L., Baz, Rachid, and Sullivan, Daniel M.

Subjects

*ANTINEOPLASTIC agents, *CANCER cells, *CYTOPLASM, *CANCER invasiveness, *DRUG resistance in cancer cells, *APOPTOSIS

Abstract

Nuclear-cytoplasmic trafficking of proteins is a significant factor in the development of cancer and drug resistance. Subcellular localization of exported proteins linked to cancer development include those involved in cell growth and proliferation, apoptosis, cell cycle regulation, transformation, angiogenesis, cell adhesion, invasion, and metastasis. Here, we examined the basic mechanisms involved in the export of proteins from the nucleus to the cytoplasm. All proteins over 40kDa use the nuclear pore complex to gain entry or exit from the nucleus, with the primary nuclear export molecule involved in these processes being chromosome region maintenance 1 (CRM1, exportin 1 or XPO1). Proteins exported from the nucleus must possess a hydrophobic nuclear export signal (NES) peptide that binds to a hydrophobic groove containing an active-site Cys528 in the CRM1 protein. CRM1 inhibitors function largely by covalent modification of the active site Cys528 and prevent binding to the cargo protein NES. In the absence of a CRM1 inhibitor, CRM1 binds cooperatively to the NES of the cargo protein and RanGTP, forming a trimer that is actively transported out of the nucleus by facilitated diffusion. Nuclear export can be blocked by CRM1 inhibitors, NES peptide inhibitors or by preventing post-translational modification of cargo proteins. Clinical trials using the classic CRM1 inhibitor leptomycin B proved too toxic for patients; however, a new generation of less toxic small molecule inhibitors is being used in clinical trials in patients with both hematological malignancies and solid tumors. Additional trials are being initiated using small-molecule CRM1 inhibitors in combination with chemotherapeutics such as pegylated liposomal doxorubicin. In this review, we present evidence that combining the new CRM1 inhibitors with other classes of therapeutics may prove effective in the treatment of cancer. Potential combinatorial therapies discussed include the use of CRM1 inhibitors and the addition of alkylating agents (melphalan), anthracyclines (doxorubicin and daunomycin), BRAF inhibitors, platinum drugs (cisplatin and oxaliplatin), proteosome inhibitors (bortezomib and carfilzomib), or tyrosine-kinase inhibitors (imatinib). Also, the sequence of treatment may be important for combination therapy. We found that the most effective treatment regimen involved first priming the cancer cells with the CRM1 inhibitor followed by doxorubicin, bortezomib, carfilzomib, or melphalan. This order sensitized both de novo and acquired drug-resistant cancer cell lines. [ABSTRACT FROM AUTHOR]

Published

2014

39. Atomic basis of CRM1-cargo recognition, release and inhibition.

Author

Fung, Ho Yee Joyce and Yuh Min Chook

Subjects

*NUCLEAR receptors (Biochemistry), *CYTOPLASM, *GENE expression, *DRUG development, *ANTINEOPLASTIC agents, *TARGETED drug delivery

Abstract

CRM1 or XPO1 is the major nuclear export receptor in the cell, which controls the nuclear-cytoplasmic localization of many proteins and RNAs. CRM1 is also a promising cancer drug target as the transport receptor is overexpressed in many cancers where some of its cargos are misregulated and mislocalized to the cytoplasm. Atomic level understanding of CRM1 function has greatly facilitated recent drug discovery and development of CRM1 inhibitors to target a variety of malignancies. Numerous atomic resolution CRM1 structures are now available, explaining how the exporter recognizes nuclear export signals in its cargos, how RanGTP and cargo bind with positive cooperativity, how RanBP1 causes release of export cargos in the cytoplasm and how diverse inhibitors such as Leptomycin B and the new KPT-SINE compounds block nuclear export. This review summarizes structure-function studies that explain CRM1-cargo recognition, release and inhibition. [ABSTRACT FROM AUTHOR]

Published

2014

40. Nuclear import of cutaneous beta genus HPV8 E7 oncoprotein is mediated by hydrophobic interactions between its zinc-binding domain and FG nucleoporins.

Author

Onder, Zeynep and Moroianu, Junona

Subjects

*NUCLEAR pore complex, *PAPILLOMAVIRUSES, *VIRAL proteins, *HYDROPHOBIC interactions, *ZINC transporters, *GREEN fluorescent protein

Abstract

Abstract: We have previously discovered and characterized the nuclear import pathways for the E7 oncoproteins of mucosal alpha genus HPVs, type 16 and 11. Here we investigated the nuclear import of cutaneous beta genus HPV8 E7 protein using confocal microscopy after transfections of HeLa cells with EGFP-8E7 and mutant plasmids and nuclear import assays in digitonin-permeabilized HeLa cells. We determined that HPV8 E7 contains a nuclear localization signal (NLS) within its zinc-binding domain that mediates its nuclear import. Furthermore, we discovered that a mostly hydrophobic patch 65 LRLFV 69 within the zinc-binding domain is essential for the nuclear import and localization of HPV8 E7 via hydrophobic interactions with the FG nucleoporins Nup62 and Nup153. Substitution of the hydrophobic residues within the 65 LRLFV 69 patch to alanines, and not R66A mutation, disrupt the interactions between the 8E7 zinc-binding domain and Nup62 and Nup153 and consequently inhibit nuclear import of HPV8 E7. [Copyright &y& Elsevier]

Published

2014

41. Encephalomyocarditis virus Leader protein hinge domain is responsible for interactions with Ran GTPase.

Author

Bacot-Davis, Valjean R. and Palmenberg, Ann C.

Subjects

*ENCEPHALOMYOCARDITIS virus, *VIRAL proteins, *GUANOSINE triphosphatase, *AMINO acid sequence, *PATHOGENIC microorganisms, *NUCLEAR pore complex, *PHOSPHORYLATION, *PROTEIN binding

Abstract

Abstract: Encephalomyocarditis virus (EMCV), a Cardiovirus, initiates its polyprotein with a short 67 amino acid Leader (L) sequence. The protein acts as a unique pathogenicity factor, with anti-host activities which include the triggering of nuclear pore complex hyperphosphorylation and direct binding inhibition of the active cellular transport protein, Ran GTPase. Chemical modifications and protein mutagenesis now map the Ran binding domain to the L hinge-linker region, and in particular, to amino acids 35–40. Large deletions affecting this region were shown previously to diminish Ran binding. New point mutations, especially K35Q, D37A and W40A, preserve the intact L structure, abolish Ran binding and are deficient for nucleoporin (Nup) hyperphosphorylation. Ran itself morphs through multiple configurations, but reacts most effectively with L when in the GDP format, preferably with an empty nucleotide binding pocket. Therefore, L:Ran binding, mediated by the linker-hinge, is a required step in L-induced nuclear transport inhibition. [Copyright &y& Elsevier]

Published

2013

42. Characterization of the transport signals that mediate the nucleocytoplasmic traffic of low risk HPV11 E7.

Author

McKee, Courtney H., Onder, Zeynep, Ashok, Aditya, Cardoso, Rebeca, and Moroianu, Junona

Subjects

*CELLULAR signal transduction, *NUCLEOCYTOPLASMIC interactions, *VIRUS diseases, *PAPILLOMAVIRUSES, *ZINC transporters, *KARYOPHERINS, *NUCLEAR pore complex, *DISEASE risk factors

Abstract

Abstract: We previously discovered that nuclear import of low risk HPV11 E7 is mediated by its zinc-binding domain via a pathway that is independent of karyopherins/importins (Piccioli et al., 2010. Virology 407, 100–109). In this study we mapped and characterized a leucine-rich nuclear export signal (NES), 76 IRQLQDLLL 84, within the zinc-binding domain that mediates the nuclear export of HPV11 E7 in a CRM1-dependent manner. We also identified a mostly hydrophobic patch 65 VRLVV 69 within the zinc-binding domain that mediates nuclear import of HPV11 E7 via hydrophobic interactions with the FG-repeats domain of Nup62. Substitutions of hydrophobic residues to alanine within the 65 VRLVV 69 sequence disrupt the nuclear localization of 11E7, whereas the R66A mutation has no effect. Overall the data support a model of nuclear entry of HPV11 E7 protein via hydrophobic interactions with FG nucleoporins at the nuclear pore complex. [Copyright &y& Elsevier]

Published

2013

43. Validation-based insertional mutagenesis for identification of Nup214 as a host factor for EV71 replication in RD cells.

Author

Wang, Bei, Zhang, XiaoYu, and Zhao, Zhendong

Subjects

*INSERTION mutation, *MUTAGENESIS, *NUCLEAR pore complex, *NUCLEAR proteins, *VIRUS research, *RHABDOMYOSARCOMA

Abstract

Highlights: [•] We introduced a new mutagenesis strategy named VBIM to the viral research. [•] This method can identify either host factors or host restriction factors. [•] Using VBIM system, we identified Nup214 as a host factor for EV71 replication in RD cells. [ABSTRACT FROM AUTHOR]

Published

2013

44. Structural Basis for Cell-Cycle-Dependent Nuclear Import Mediated by the Karyopherin Kap121p.

Author

Kobayashi, Junya and Matsuura, Yoshiyuki

Subjects

*CELL cycle regulation, *KARYOPHERINS, *PLETHORA (Pathology), *NUCLEAR proteins, *TRANSCRIPTION factors, *NUCLEAR membranes, *RIBOSOMAL proteins, *SACCHAROMYCES cerevisiae

Abstract

Abstract: Kap121p (also known as Pse1p) is an essential karyopherin that mediates nuclear import of a plethora of cargoes including cell cycle regulators, transcription factors, and ribosomal proteins in Saccharomyces cerevisiae. It has been proposed that the spindle assembly checkpoint signaling triggers molecular rearrangements of nuclear pore complexes and thereby arrests Kap121p-mediated nuclear import at metaphase, while leaving import mediated by other karyopherins unaffected. The Kap121p-specific import inhibition is required for normal progression through mitosis. To understand the structural basis for Kap121p-mediated nuclear import and its unique regulatory mechanism during mitosis, we determined crystal structures of Kap121p in isolation and also in complex with either its import cargoes or nucleoporin Nup53p or RanGTP. Kap121p has a superhelical structure composed of 24 HEAT repeats. The structures of Kap121p–cargo complexes define a non-conventional nuclear localization signal (NLS) that has a consensus sequence of KV/IxKx1-2K/H/R. The structure of Kap121p–Nup53p complex shows that cargo and Nup53p compete for the same high-affinity binding site, explaining how Nup53p binding forces cargo release when the Kap121p-binding site of Nup53p is exposed during mitosis. Comparison of the NLS and RanGTP complexes reveals that RanGTP binding not only occludes the cargo-binding site but also forces Kap121p into a conformation that is incompatible with NLS recognition. [Copyright &y& Elsevier]

Published

2013

45. Nup153 and Nup98 bind the HIV-1 core and contribute to the early steps of HIV-1 replication

Author

Di Nunzio, Francesca, Fricke, Thomas, Miccio, Annarita, Valle-Casuso, Jose Carlos, Perez, Patricio, Souque, Philippe, Rizzi, Ermanno, Severgnini, Marco, Mavilio, Fulvio, Charneau, Pierre, and Diaz-Griffero, Felipe

Subjects

*HIV, *VIRAL replication, *VIRAL genes, *CHROMATIN, *VIRUS diseases, *NUCLEAR pore complex

Abstract

Abstract: The early steps of HIV-1 replication involve the entry of HIV-1 into the nucleus, which is characterized by viral interactions with nuclear pore components. HIV-1 developed an evolutionary strategy to usurp the nuclear pore machinery and chromatin in order to integrate and efficiently express viral genes. In the current work, we studied the role of nucleoporins 153 and 98 (Nup153 and Nup98) in infection of human Jurkat lymphocytes by HIV-1. We showed that Nup153-depleted cells exhibited a defect in nuclear import, while depletion of Nup 98 caused a slight defect in HIV integration. To explore the biochemical viral determinants for the requirement of Nup153 and Nup98 during HIV-1 infection, we tested the ability of these nucleoporins to interact with HIV-1 cores. Our findings showed that both nucleoporins bind HIV-1 cores suggesting that this interaction is important for HIV-1 nuclear import and/or integration. Distribution analysis of integration sites in Nup153-depleted cells revealed a reduced tendency of HIV-1 to integrate in intragenic sites, which in part could account for the large infectivity defect observed in Nup153-depleted cells. Our work strongly supports a role for Nup153 in HIV-1 nuclear import and integration. [Copyright &y& Elsevier]

Published

2013

46. Structural and Functional Analysis of the C-Terminal Domain of Nup358/RanBP2

Author

Lin, Daniel H., Zimmermann, Stephan, Stuwe, Tobias, Stuwe, Evelyn, and Hoelz, André

Subjects

*FUNCTIONAL analysis, *C-terminal binding proteins, *NUCLEAR pore complex, *CYTOPLASMIC filaments, *BINDING sites, *METAZOA, *CYCLOPHILINS

Abstract

Abstract: The nuclear pore complex is the sole mediator of bidirectional transport between the nucleus and cytoplasm. Nup358 is a metazoan-specific nucleoporin that localizes to the cytoplasmic filaments and provides several binding sites for the mobile nucleocytoplasmic transport machinery. Here we present the crystal structure of the C-terminal domain (CTD) of Nup358 at 1.75Å resolution. The structure reveals that the CTD adopts a cyclophilin-like fold with a non-canonical active-site configuration. We determined biochemically that the CTD possesses weak peptidyl-prolyl isomerase activity and show that the active-site cavity mediates a weak association with the human immunodeficiency virus-1 capsid protein, supporting its role in viral infection. Overall, the surface is evolutionarily conserved, suggesting that the CTD serves as a protein–protein interaction platform. However, we demonstrate that the CTD is dispensable for nuclear envelope localization of Nup358, suggesting that the CTD does not interact with other nucleoporins. [Copyright &y& Elsevier]

Published

2013

47. Nucleoporin Nup98 mediates galectin-3 nuclear-cytoplasmic trafficking.

Author

Funasaka, Tatsuyoshi, Balan, Vitaly, Raz, Avraham, and Wong, Richard W.

Subjects

*GALECTINS, *BIOLOGICAL transport, *CYTOPLASM, *DWARFISM, *ADENOMATOUS polyposis coli, *CASEIN kinase, *RNA interference

Abstract

Highlights: [•] Nuclear pore protein Nup98 is a novel binding partner of galectin-3. [•] Nup98 transports galectin-3 into cytoplasm. [•] Nup98 depletion leads to galectin-3 nuclear transport and induces growth retardation. [•] Nup98 may involve in ß-catenin pathway through interaction with galectin-3. [ABSTRACT FROM AUTHOR]

Published

2013

48. A 2.1-Å-Resolution Crystal Structure of Unliganded CRM1 Reveals the Mechanism of Autoinhibition

Author

Saito, Natsumi and Matsuura, Yoshiyuki

Subjects

*CRYSTAL structure, *NUCLEOPROTEINS, *MOLECULAR biology, *NUCLEAR pore complex, *PROTEIN kinase inhibitors, *PROTEIN-ligand interactions, *RNA export

Abstract

Abstract: CRM1 mediates nuclear export of numerous proteins and ribonucleoproteins containing a leucine-rich nuclear export signal (NES). Binding of RanGTP to CRM1 in the nucleus stabilizes cargo association with CRM1, and vice versa, but the mechanism underlying the positive cooperativity in RanGTP and NES binding to CRM1 remains incompletely understood. Herein we report a 2.1-Å-resolution crystal structure of unliganded Saccharomyces cerevisiae CRM1 (Xpo1p) that demonstrates that an internal loop of CRM1 (referred to as HEAT9 loop) is primarily responsible for maintaining the NES-binding cleft in a closed conformation, rendering CRM1 incapable of NES binding in the absence of RanGTP. The structure also shows that the C-terminal tail of CRM1 stabilizes the autoinhibitory conformation of the HEAT9 loop and thereby reinforces autoinhibition. Comparison with the structures of CRM1–NES–RanGTP complexes reveals how binding of RanGTP is associated with a series of allosteric conformational changes in CRM1 that lead to opening of the NES-binding cleft, allowing for stable binding of NES cargoes. [Copyright &y& Elsevier]

Published

2013

49. Crystal Structure of the N-Terminal Domain of Nup358/RanBP2

Author

Kassube, Susanne A., Stuwe, Tobias, Lin, Daniel H., Antonuk, C. Danielle, Napetschnig, Johanna, Blobel, Günter, and Hoelz, André

Subjects

*CRYSTAL structure, *MESSENGER RNA, *RIBOSOMES, *NUCLEAR pore complex, *CYTOPLASMIC filaments, *EUKARYOTES, *AMPHIPHILES, *PHOSPHOPROTEIN phosphatases

Abstract

Abstract: Key steps in mRNA export are the nuclear assembly of messenger ribonucleoprotein particles (mRNPs), the translocation of mRNPs through the nuclear pore complex (NPC), and the mRNP remodeling events at the cytoplasmic side of the NPC. Nup358/RanBP2 is a constituent of the cytoplasmic filaments of the NPC specific to higher eukaryotes and provides a multitude of binding sites for the nucleocytoplasmic transport machinery. Here, we present the crystal structure of the Nup358 N-terminal domain (NTD) at 0.95Å resolution. The structure reveals an α-helical domain that harbors three central tetratricopeptide repeats (TPRs), flanked on each side by an additional solvating amphipathic α helix. Overall, the NTD adopts an unusual extended conformation that lacks the characteristic peptide-binding groove observed in canonical TPR domains. Strikingly, the vast majority of the NTD surface exhibits an evolutionarily conserved, positive electrostatic potential, and we demonstrate that the NTD possesses the capability to bind single-stranded RNA in solution. Together, these data suggest that the NTD contributes to mRNP remodeling events at the cytoplasmic face of the NPC. [Copyright &y& Elsevier]

Published

2012

50. Silencing of OSBP-related protein 8 (ORP8) modifies the macrophage transcriptome, nucleoporin p62 distribution, and migration capacity

Author

Béaslas, Olivier, Vihervaara, Terhi, Li, Jiwei, Laurila, Pirkka-Pekka, Yan, Daoguang, and Olkkonen, Vesa M.

Subjects

*CARRIER proteins, *MACROPHAGES, *OXYSTEROLS, *ENDOPLASMIC reticulum, *NUCLEAR membranes, *GLUTATHIONE transferase, *NUCLEAR pore complex, *CHOLESTEROL

Abstract

Abstract: ORP8 is an oxysterol/cholesterol binding protein anchored to the endoplasmic reticulum and the nuclear envelope, and is abundantly expressed in the macrophage. We created and characterized mouse RAW264.7 macrophages with ORP8 stably silenced using shRNA lentiviruses. A microarray transcriptome and gene ontology pathway analysis revealed significant alterations in several nuclear pathways and ones associated with centrosome and microtubule organization. ORP8 knockdown resulted in increased expression and altered subcellular distribution of an interaction partner of ORP8, nucleoporin NUP62, with an intranuclear localization aspect and association with cytoplasmic vesicular structures and lamellipodial edges of the cells. Moreover, ORP8 silenced cells displayed enhanced migration, and a more pronounced microtubule cytoskeleton than controls expressing a non-targeting shRNA. ORP8 was shown to compete with Exo70 for interaction with NUP62, and NUP62 knockdown abolished the migration enhancement of ORP8-silenced cells, suggesting that the endogenous ORP8 suppresses migration via binding to NUP62. As a conclusion, the present study reveals new, unexpected aspects of ORP8 function in macrophages not directly involving lipid metabolism, but rather associated with nuclear functions, microtubule organization, and migration capacity. [Copyright &y& Elsevier]

Published

2012