Nuclear envelope

The nuclear envelope also known as the nuclear membrane is made up of two lipid bilayer membranes that in eukaryotic cells surround the nucleus which encloses the genetic material Nuclear envelopeHuman cell nucleusIdentifiersTHH1 00 01 2 01001FMA63888Anatomical terminology edit on Wikidata The nuclear envelope consists of two lipid bilayer membranes an inner nuclear membrane and an outer nuclear membrane The space between the membranes is called the perinuclear space It is usually about 10 50 nm wide The outer nuclear membrane is continuous with the endoplasmic reticulum membrane The nuclear envelope has many nuclear pores that allow materials to move between the cytosol and the nucleus Intermediate filament proteins called lamins form a structure called the nuclear lamina on the inner aspect of the inner nuclear membrane and give structural support to the nucleus StructureThe nuclear envelope is made up of two lipid bilayer membranes an inner nuclear membrane and an outer nuclear membrane These membranes are connected to each other by nuclear pores Two sets of intermediate filaments provide support for the nuclear envelope An internal network forms the nuclear lamina on the inner nuclear membrane A looser network forms outside to give external support The actual shape of the nuclear envelope is irregular It has invaginations and protrusions and can be observed with an electron microscope A volumetric surface render red of the nuclear envelope of one HeLa cell The cell was observed in 300 slices of electron microscopy the nuclear envelope was automatically segmented and rendered One vertical and one horizontal slice are added for reference Outer membrane The outer nuclear membrane also shares a common border with the endoplasmic reticulum While it is physically linked the outer nuclear membrane contains proteins found in far higher concentrations than the endoplasmic reticulum All four nesprin proteins nuclear envelope spectrin repeat proteins present in mammals are expressed in the outer nuclear membrane Nesprin proteins connect cytoskeletal filaments to the nucleoskeleton Nesprin mediated connections to the cytoskeleton contribute to nuclear positioning and to the cell s mechanosensory function KASH domain proteins of Nesprin 1 and 2 are part of a LINC complex linker of nucleoskeleton and cytoskeleton and can bind directly to cystoskeletal components such as actin filaments or can bind to proteins in the perinuclear space Nesprin 3 and 4 may play a role in unloading enormous cargo Nesprin 3 proteins bind plectin and link the nuclear envelope to cytoplasmic intermediate filaments Nesprin 4 proteins bind the plus end directed motor kinesin 1 The outer nuclear membrane is also involved in development as it fuses with the inner nuclear membrane to form nuclear pores Inner membrane The inner nuclear membrane encloses the nucleoplasm and is covered by the nuclear lamina a mesh of intermediate filaments which stabilizes the nuclear membrane as well as being involved in chromatin function It is connected to the outer membrane by nuclear pores which penetrate the membranes While the two membranes and the endoplasmic reticulum are linked proteins embedded in the membranes tend to stay put rather than dispersing across the continuum It is lined with a fiber network called the nuclear lamina which is 10 40 nm thick and provides strength citation needed Mutations in the genes that encode for the inner nuclear membrane proteins can cause several laminopathies citation needed Nuclear pores Nuclear pores crossing the nuclear envelope The nuclear envelope is punctured by around a thousand nuclear pore complexes about 100 nm across with an inner channel about 40 nm wide The complexes contain a number of nucleoporins proteins that link the inner and outer nuclear membranes citation needed Cell divisionDuring the G2 phase of interphase the nuclear membrane increases its surface area and doubles its number of nuclear pore complexes In eukaryotes such as yeast which undergo closed mitosis the nuclear membrane stays intact during cell division The spindle fibers either form within the membrane or penetrate it without tearing it apart In other eukaryotes animals as well as plants the nuclear membrane must break down during the prometaphase stage of mitosis to allow the mitotic spindle fibers to access the chromosomes inside The breakdown and reformation processes are not well understood Breakdown Breakdown and reassembly in mitosis In mammals the nuclear membrane can break down within minutes following a set of steps during the early stages of mitosis First M Cdk s phosphorylate nucleoporin polypeptides and they are selectively removed from the nuclear pore complexes After that the rest of the nuclear pore complexes break apart simultaneously Biochemical evidence suggests that the nuclear pore complexes disassemble into stable pieces rather than disintegrating into small polypeptide fragments M Cdk s also phosphorylate elements of the nuclear lamina the framework that supports the envelope leading to the disassembly of the lamina and hence the envelope membranes into small vesicles Electron and fluorescence microscopy has given strong evidence that the nuclear membrane is absorbed by the endoplasmic reticulum nuclear proteins not normally found in the endoplasmic reticulum show up during mitosis In addition to the breakdown of the nuclear membrane during the prometaphase stage of mitosis the nuclear membrane also ruptures in migrating mammalian cells during the interphase stage of the cell cycle This transient rupture is likely caused by nuclear deformation The rupture is rapidly repaired by a process dependent on endosomal sorting complexes required for transport ESCRT made up of cytosolic protein complexes During nuclear membrane rupture events DNA double strand breaks occur Thus the survival of cells migrating through confined environments appears to depend on efficient nuclear envelope and DNA repair machineries Aberrant nuclear envelope breakdown has also been observed in laminopathies and in cancer cells leading to mislocalization of cellular proteins the formation of micronuclei and genomic instability Reformation Exactly how the nuclear membrane reforms during telophase of mitosis is debated Two theories exist Vesicle fusion where vesicles of nuclear membrane fuse together to rebuild the nuclear membrane Re shaping of the endoplasmic reticulum where the parts of the endoplasmic reticulum containing the absorbed nuclear membrane envelop the nuclear space reforming a closed membrane Origin of the nuclear membraneA study of the comparative genomics evolution and origins of the nuclear membrane led to the proposal that the nucleus emerged in the primitive eukaryotic ancestor the prekaryote and was triggered by the archaeo bacterial symbiosis Several ideas have been proposed for the evolutionary origin of the nuclear membrane These ideas include the invagination of the plasma membrane in a prokaryote ancestor or the formation of a genuine new membrane system following the establishment of proto mitochondria in the archaeal host The adaptive function of the nuclear membrane may have been to serve as a barrier to protect the genome from reactive oxygen species ROS produced by the cells pre mitochondria NotesLess used names include nucleolemma and karyotheca ReferencesGeorgia State University Cell Nucleus and Nuclear Envelope gsu edu Archived from the original on 2018 06 18 Retrieved 2014 01 21 Nuclear membrane Biology Dictionary Biology Online Retrieved 7 December 2012 nuclear membrane Merriam Webster Retrieved 7 December 2012 Alberts Bruce 2002 Molecular biology of the cell 4th ed New York u a Garland p 197 ISBN 978 0815340720 Perinuclear space Dictionary Biology Online Retrieved 7 December 2012 Berrios Miguel ed 1998 Nuclear structure and function San Diego Academic Press p 4 ISBN 9780125641555 Coutinho Henrique Douglas M Falcao Silva Vivyanne S Goncalves Gregorio Fernandes da Nobrega Raphael Batista 20 April 2009 Molecular ageing in progeroid syndromes Hutchinson Gilford progeria syndrome as a model Immunity amp Ageing 6 4 doi 10 1186 1742 4933 6 4 PMC 2674425 PMID 19379495 Chloride channels in the Nuclear membrane PDF Harvard edu Archived from the original PDF on 2 August 2010 Retrieved 7 December 2012 Hetzer Mertin February 3 2010 The Nuclear Envelope Cold Spring Harbor Perspectives in Biology 2 3 a000539 doi 10 1101 cshperspect a000539 PMC 2829960 PMID 20300205 Wilson Katherine L Berk Jason M 2010 06 15 The nuclear envelope at a glance J Cell Sci 123 12 1973 1978 doi 10 1242 jcs 019042 ISSN 0021 9533 PMC 2880010 PMID 20519579 Burke Brian Roux Kyle J 2009 11 01 Nuclei take a position managing nuclear location Developmental Cell 17 5 587 597 doi 10 1016 j devcel 2009 10 018 ISSN 1878 1551 PMID 19922864 Uzer Gunes Thompson William R Sen Buer Xie Zhihui Yen Sherwin S Miller Sean Bas Guniz Styner Maya Rubin Clinton T 2015 06 01 Cell Mechanosensitivity to Extremely Low Magnitude Signals Is Enabled by a LINCed Nucleus Stem Cells 33 6 2063 2076 doi 10 1002 stem 2004 ISSN 1066 5099 PMC 4458857 PMID 25787126 Crisp Melissa Liu Qian Roux Kyle Rattner J B Shanahan Catherine Burke Brian Stahl Phillip D Hodzic Didier 2006 01 02 Coupling of the nucleus and cytoplasm role of the LINC complex The Journal of Cell Biology 172 1 41 53 doi 10 1083 jcb 200509124 ISSN 0021 9525 PMC 2063530 PMID 16380439 Zeng X et al 2018 Nuclear Envelope Associated Chromosome Dynamics during Meiotic Prophase I Frontiers in Cell and Developmental Biology 5 121 doi 10 3389 fcell 2017 00121 PMC 5767173 PMID 29376050 Wilhelmsen Kevin Litjens Sandy H M Kuikman Ingrid Tshimbalanga Ntambua Janssen Hans van den Bout Iman Raymond Karine Sonnenberg Arnoud 2005 12 05 Nesprin 3 a novel outer nuclear membrane protein associates with the cytoskeletal linker protein plectin The Journal of Cell Biology 171 5 799 810 doi 10 1083 jcb 200506083 ISSN 0021 9525 PMC 2171291 PMID 16330710 Roux Kyle J Crisp Melissa L Liu Qian Kim Daein Kozlov Serguei Stewart Colin L Burke Brian 2009 02 17 Nesprin 4 is an outer nuclear membrane protein that can induce kinesin mediated cell polarization Proceedings of the National Academy of Sciences of the United States of America 106 7 2194 2199 Bibcode 2009PNAS 106 2194R doi 10 1073 pnas 0808602106 ISSN 1091 6490 PMC 2650131 PMID 19164528 Fichtman Boris Ramos Corinne Rasala Beth Harel Amnon Forbes Douglass J 2010 12 01 Inner Outer Nuclear Membrane Fusion in Nuclear Pore Assembly Molecular Biology of the Cell 21 23 4197 4211 doi 10 1091 mbc E10 04 0309 ISSN 1059 1524 PMC 2993748 PMID 20926687 Georgatos S D April 19 2001 The inner nuclear membrane simple or very complex The EMBO Journal 20 12 2989 2994 doi 10 1093 emboj 20 12 2989 PMC 150211 PMID 11406575 Alberts et al 2008 Chapter 17 The Cell Cycle Molecular Biology of The Cell 5th ed New York Garland Science pp 1079 1080 ISBN 978 0 8153 4106 2 Raab M Gentili M de Belly H Thiam HR Vargas P Jimenez AJ Lautenschlaeger F Voituriez R Lennon Dumenil AM Manel N Piel M 2016 ESCRT III repairs nuclear envelope ruptures during cell migration to limit DNA damage and cell death Science 352 6283 359 62 Bibcode 2016Sci 352 359R doi 10 1126 science aad7611 PMID 27013426 S2CID 28544308 Vargas et al 2012 Transient nuclear envelope rupturing during interphase in human cancer cells Nucleus Austin Tex 3 1 Nucleus 88 100 doi 10 4161 nucl 18954 PMC 3342953 PMID 22567193 Lim et al 2016 Nuclear envelope rupture drives genome instability in cancer Molecular Biology of the Cell 27 21 MBoC 3210 3213 doi 10 1091 mbc E16 02 0098 PMC 5170854 PMID 27799497 Hatch et al 2016 Nuclear envelope rupture is induced by actin based nucleus confinement Journal of Cell Biology 215 1 JCB 27 36 doi 10 1083 jcb 201603053 PMC 5057282 PMID 27697922 Retrieved 24 March 2019 Mans BJ Anantharaman V Aravind L Koonin EV 2004 Comparative genomics evolution and origins of the nuclear envelope and nuclear pore complex Cell Cycle 3 12 1612 37 doi 10 4161 cc 3 12 1316 PMID 15611647 Martin W 2005 Archaebacteria Archaea and the origin of the eukaryotic nucleus Curr Opin Microbiol 8 6 630 7 doi 10 1016 j mib 2005 10 004 PMID 16242992 Speijer D 2015 Birth of the eukaryotes by a set of reactive innovations New insights force us to relinquish gradual models BioEssays 37 12 1268 76 doi 10 1002 bies 201500107 PMID 26577075 S2CID 20068849 Bernstein H Bernstein C Sexual communication in archaea the precursor to meiosis pp 103 117 in Biocommunication of Archaea Guenther Witzany ed 2017 Springer International Publishing ISBN 978 3 319 65535 2 DOI 10 1007 978 3 319 65536 9External linksWikimedia Commons has media related to Nuclear membranes Histology image 20102loa Histology Learning System at Boston University Animations of nuclear pores and transport through the nuclear envelope Archived 2009 02 07 at the Wayback Machine Illustrations of nuclear pores and transport through the nuclear membrane Archived 2009 02 07 at the Wayback Machine Nuclear membrane at the U S National Library of Medicine Medical Subject Headings MeSH