Literature DB >> 24914434

Mitotic spindle multipolarity without centrosome amplification.

Helder Maiato, Elsa Logarinho.   

Abstract

Mitotic spindle bipolarity is essential for faithful segregation of chromosomes during cell division. Multipolar spindles are often seen in human cancers and are usually associated with supernumerary centrosomes that result from centrosome overduplication or cytokinesis failure. A less-understood path to multipolar spindle formation may arise due to loss of spindle pole integrity in response to spindle and/or chromosomal forces. Here we discuss the different routes leading to multipolar spindle formation, focusing on spindle multipolarity without centrosome amplification. We also present the distinct and common features between these pathways and discuss their therapeutic implications.

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Year:  2014        PMID: 24914434     DOI: 10.1038/ncb2958

Source DB:  PubMed          Journal:  Nat Cell Biol        ISSN: 1465-7392            Impact factor:   28.824


  130 in total

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Journal:  Sci Transl Med       Date:  2010-05-26       Impact factor: 17.956

2.  Spindle pole fragmentation due to proteasome inhibition.

Authors:  Anka G Ehrhardt; Greenfield Sluder
Journal:  J Cell Physiol       Date:  2005-09       Impact factor: 6.384

3.  Kinetochore dynein is required for chromosome motion and congression independent of the spindle checkpoint.

Authors:  Zhenye Yang; U Serdar Tulu; Patricia Wadsworth; Conly L Rieder
Journal:  Curr Biol       Date:  2007-05-17       Impact factor: 10.834

4.  Polo kinase and separase regulate the mitotic licensing of centriole duplication in human cells.

Authors:  Meng-Fu Bryan Tsou; Won-Jing Wang; Kelly A George; Kunihiro Uryu; Tim Stearns; Prasad V Jallepalli
Journal:  Dev Cell       Date:  2009-09       Impact factor: 12.270

Review 5.  Amorphous no more: subdiffraction view of the pericentriolar material architecture.

Authors:  Vito Mennella; David A Agard; Bo Huang; Laurence Pelletier
Journal:  Trends Cell Biol       Date:  2013-11-19       Impact factor: 20.808

6.  Microtubule minus-end anchorage at centrosomal and non-centrosomal sites: the role of ninein.

Authors:  M M Mogensen; A Malik; M Piel; V Bouckson-Castaing; M Bornens
Journal:  J Cell Sci       Date:  2000-09       Impact factor: 5.285

7.  Clathrin promotes centrosome integrity in early mitosis through stabilization of centrosomal ch-TOG.

Authors:  Amy B Foraker; Stéphane M Camus; Timothy M Evans; Sophia R Majeed; Chih-Ying Chen; Sabrina B Taner; Ivan R Corrêa; Stephen J Doxsey; Frances M Brodsky
Journal:  J Cell Biol       Date:  2012-08-13       Impact factor: 10.539

8.  Uncoordinated loss of chromatid cohesion is a common outcome of extended metaphase arrest.

Authors:  Deanna Stevens; Reto Gassmann; Karen Oegema; Arshad Desai
Journal:  PLoS One       Date:  2011-08-02       Impact factor: 3.240

9.  A primate virus generates transformed human cells by fusion.

Authors:  Dominik M Duelli; Stephen Hearn; Michael P Myers; Yuri Lazebnik
Journal:  J Cell Biol       Date:  2005-11-07       Impact factor: 10.539

10.  Astrin is required for the maintenance of sister chromatid cohesion and centrosome integrity.

Authors:  Kerstin H Thein; Julia Kleylein-Sohn; Erich A Nigg; Ulrike Gruneberg
Journal:  J Cell Biol       Date:  2007-07-30       Impact factor: 10.539
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  69 in total

Review 1.  The Emerging Link between Centrosome Aberrations and Metastasis.

Authors:  Gina M LoMastro; Andrew J Holland
Journal:  Dev Cell       Date:  2019-05-06       Impact factor: 12.270

2.  Large-Scale Analysis of CRISPR/Cas9 Cell-Cycle Knockouts Reveals the Diversity of p53-Dependent Responses to Cell-Cycle Defects.

Authors:  Kara L McKinley; Iain M Cheeseman
Journal:  Dev Cell       Date:  2017-02-16       Impact factor: 12.270

3.  RBBP4 regulates histone deacetylation and bipolar spindle assembly during oocyte maturation in the mouse.

Authors:  Ahmed Z Balboula; Paula Stein; Richard M Schultz; Karen Schindler
Journal:  Biol Reprod       Date:  2015-03-18       Impact factor: 4.285

4.  Mechanics of Multicentrosomal Clustering in Bipolar Mitotic Spindles.

Authors:  Saptarshi Chatterjee; Apurba Sarkar; Jie Zhu; Alexei Khodjakov; Alex Mogilner; Raja Paul
Journal:  Biophys J       Date:  2020-06-12       Impact factor: 4.033

5.  Fbxo28 promotes mitotic progression and regulates topoisomerase IIα-dependent DNA decatenation.

Authors:  Anne-Sophie Kratz; Kai T Richter; Yvonne T Schlosser; Miriam Schmitt; Anatoliy Shumilov; Henri-Jacques Delecluse; Ingrid Hoffmann
Journal:  Cell Cycle       Date:  2016-10-18       Impact factor: 4.534

6.  Tri-directional anaphases as a novel chromosome segregation defect in human oocytes.

Authors:  Jenna Haverfield; Nicola L Dean; Diana Nöel; Gaudeline Rémillard-Labrosse; Veronique Paradis; Isaac-Jacques Kadoch; Greg FitzHarris
Journal:  Hum Reprod       Date:  2017-06-01       Impact factor: 6.918

7.  Chronic Exposure to Particulate Chromate Induces Premature Centrosome Separation and Centriole Disengagement in Human Lung Cells.

Authors:  Julieta Martino; Amie L Holmes; Hong Xie; Sandra S Wise; John Pierce Wise
Journal:  Toxicol Sci       Date:  2015-08-19       Impact factor: 4.849

Review 8.  A look into centrosome abnormalities in colon cancer cells, how they arise and how they might be targeted therapeutically.

Authors:  Lauren E Harrison; Marina Bleiler; Charles Giardina
Journal:  Biochem Pharmacol       Date:  2017-11-09       Impact factor: 5.858

9.  HSP70 regulates the function of mitotic centrosomes.

Authors:  Chieh-Ting Fang; Hsiao-Hui Kuo; Tiffany S Pan; Fu-Chi Yu; Ling-Huei Yih
Journal:  Cell Mol Life Sci       Date:  2016-04-30       Impact factor: 9.261

10.  Observing Mitotic Division and Dynamics in a Live Zebrafish Embryo.

Authors:  Stefanie M Percival; John M Parant
Journal:  J Vis Exp       Date:  2016-07-15       Impact factor: 1.355
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