Literature DB >> 30146160

Chromosome Segregation Fidelity in Epithelia Requires Tissue Architecture.

Kristin A Knouse1, Kristina E Lopez2, Marc Bachofner3, Angelika Amon4.   

Abstract

Much of our understanding of chromosome segregation is based on cell culture systems. Here, we examine the importance of the tissue environment for chromosome segregation by comparing chromosome segregation fidelity across several primary cell types in native and nonnative contexts. We discover that epithelial cells have increased chromosome missegregation outside of their native tissues. Using organoid culture systems, we show that tissue architecture, specifically integrin function, is required for accurate chromosome segregation. We find that tissue architecture enhances the correction of merotelic microtubule-kinetochore attachments, and this is especially important for maintaining chromosome stability in the polyploid liver. We propose that disruption of tissue architecture could underlie the widespread chromosome instability across epithelial cancers. Moreover, our findings highlight the extent to which extracellular context can influence intrinsic cellular processes and the limitations of cell culture systems for studying cells that naturally function within a tissue.
Copyright © 2018 Elsevier Inc. All rights reserved.

Entities:  

Keywords:  aneuploidy; chromosome segregation; integrin; tissue architecture

Mesh:

Year:  2018        PMID: 30146160      PMCID: PMC6151153          DOI: 10.1016/j.cell.2018.07.042

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  52 in total

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Authors:  Manuel Théry; Victor Racine; Anne Pépin; Matthieu Piel; Yong Chen; Jean-Baptiste Sibarita; Michel Bornens
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Authors:  N Haruki; H Saito; T Harano; S Nomoto; T Takahashi; H Osada; Y Fujii; T Takahashi
Journal:  Cancer Lett       Date:  2001-01-26       Impact factor: 8.679

4.  Chromosomal instability is associated with higher expression of genes implicated in epithelial-mesenchymal transition, cancer invasiveness, and metastasis and with lower expression of genes involved in cell cycle checkpoints, DNA repair, and chromatin maintenance.

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Journal:  Neoplasia       Date:  2008-11       Impact factor: 5.715

Review 5.  Cell polarity as a regulator of cancer cell behavior plasticity.

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Authors:  T Kamala
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7.  Sensing chromosome bi-orientation by spatial separation of aurora B kinase from kinetochore substrates.

Authors:  Dan Liu; Gerben Vader; Martijn J M Vromans; Michael A Lampson; Susanne M A Lens
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8.  Chromosome missegregation rate predicts whether aneuploidy will promote or suppress tumors.

Authors:  Alain D Silk; Lauren M Zasadil; Andrew J Holland; Benjamin Vitre; Don W Cleveland; Beth A Weaver
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Review 9.  The glial nature of embryonic and adult neural stem cells.

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10.  Merotelic kinetochore orientation is a major mechanism of aneuploidy in mitotic mammalian tissue cells.

Authors:  D Cimini; B Howell; P Maddox; A Khodjakov; F Degrassi; E D Salmon
Journal:  J Cell Biol       Date:  2001-04-30       Impact factor: 10.539
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  44 in total

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Review 2.  Genomic evolution of cancer models: perils and opportunities.

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Review 3.  Where is the right path heading from the centromere to spindle microtubules?

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Review 4.  Solving the Polyploid Mystery in Health and Disease.

Authors:  K J Gjelsvik; R Besen-McNally; V P Losick
Journal:  Trends Genet       Date:  2018-11-21       Impact factor: 11.639

5.  Polyploid Hepatocytes Facilitate Adaptation and Regeneration to Chronic Liver Injury.

Authors:  Patrick D Wilkinson; Frances Alencastro; Evan R Delgado; Madeleine P Leek; Matthew P Weirich; P Anthony Otero; Nairita Roy; Whitney K Brown; Michael Oertel; Andrew W Duncan
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6.  MYC Dysregulates Mitosis, Revealing Cancer Vulnerabilities.

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7.  Fast and efficient generation of knock-in human organoids using homology-independent CRISPR-Cas9 precision genome editing.

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8.  BubR1 allelic effects drive phenotypic heterogeneity in mosaic-variegated aneuploidy progeria syndrome.

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Review 9.  The origins and functions of hepatic polyploidy.

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Review 10.  Polyploidy in liver development, homeostasis and disease.

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