Literature DB >> 25799107

Chromothripsis in healthy individuals affects multiple protein-coding genes and can result in severe congenital abnormalities in offspring.

Mirjam S de Pagter1, Markus J van Roosmalen1, Annette F Baas1, Ivo Renkens1, Karen J Duran1, Ellen van Binsbergen1, Masoumeh Tavakoli-Yaraki1, Ron Hochstenbach1, Lars T van der Veken1, Edwin Cuppen2, Wigard P Kloosterman3.   

Abstract

Chromothripsis represents an extreme class of complex chromosome rearrangements (CCRs) with major effects on chromosomal architecture. Although recent studies have associated chromothripsis with congenital abnormalities, the incidence and pathogenic effects of this phenomenon require further investigation. Here, we analyzed the genomes of three families in which chromothripsis rearrangements were transmitted from a mother to her child. The chromothripsis in the mothers resulted in completely balanced rearrangements involving 8-23 breakpoint junctions across three to five chromosomes. Two mothers did not show any phenotypic abnormalities, although 3-13 protein-coding genes were affected by breakpoints. Unbalanced but stable transmission of a subset of the derivative chromosomes caused apparently de novo complex copy-number changes in two children. This resulted in gene-dosage changes, which are probably responsible for the severe congenital phenotypes of these two children. In contrast, the third child, who has a severe congenital disease, harbored all three chromothripsis chromosomes from his healthy mother, but one of the chromosomes acquired de novo rearrangements leading to copy-number changes. These results show that the human genome can tolerate extreme reshuffling of chromosomal architecture, including breakage of multiple protein-coding genes, without noticeable phenotypic effects. The presence of chromothripsis in healthy individuals affects reproduction and is expected to substantially increase the risk of miscarriages, abortions, and severe congenital disease.
Copyright © 2015 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 25799107      PMCID: PMC4385185          DOI: 10.1016/j.ajhg.2015.02.005

Source DB:  PubMed          Journal:  Am J Hum Genet        ISSN: 0002-9297            Impact factor:   11.025


  20 in total

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Review 2.  Complex chromosomal rearrangements: origin and meiotic behavior.

Authors:  F Pellestor; T Anahory; G Lefort; J Puechberty; T Liehr; B Hédon; P Sarda
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3.  Chromothripsis as a mechanism driving complex de novo structural rearrangements in the germline.

Authors:  Wigard P Kloosterman; Victor Guryev; Mark van Roosmalen; Karen J Duran; Ewart de Bruijn; Saskia C M Bakker; Tom Letteboer; Bernadette van Nesselrooij; Ron Hochstenbach; Martin Poot; Edwin Cuppen
Journal:  Hum Mol Genet       Date:  2011-02-24       Impact factor: 6.150

4.  Prenatal diagnosis of chromothripsis, with nine breaks characterized by karyotyping, FISH, microarray and whole-genome sequencing.

Authors:  M J Macera; A Sobrino; B Levy; V Jobanputra; V Aggarwal; A Mills; C Esteves; C Hanscom; S Pereira; V Pillalamarri; Z Ordulu; C C Morton; M Talkowski; D Warburton
Journal:  Prenat Diagn       Date:  2015-02-04       Impact factor: 3.050

Review 5.  Molecular characterization of partial trisomy 16q24.1-qter: clinical report and review of the literature.

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Review 6.  Karyotype/phenotype correlation in partial trisomies of the long arm of chromosome 16: case report and review of literature.

Authors:  Ana C Laus; Wagner A R Baratela; Lucimar A F Laureano; Silvio A Santos; Jair Huber; Ester S Ramos; Camila C Rebelo; Jeremy A Squire; Lucia Martelli
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Journal:  Science       Date:  2012-02-17       Impact factor: 47.728

10.  Massive genomic rearrangement acquired in a single catastrophic event during cancer development.

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Journal:  Cell       Date:  2011-01-07       Impact factor: 41.582
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  27 in total

1.  Chromothripsis and Duplications as Underappreciated Genomic Gremlins.

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Journal:  Mol Syndromol       Date:  2020-12-07

Review 2.  Chromothripsis, a credible chromosomal mechanism in evolutionary process.

Authors:  Franck Pellestor; Vincent Gatinois
Journal:  Chromosoma       Date:  2018-08-07       Impact factor: 4.316

Review 3.  Living Organisms Author Their Read-Write Genomes in Evolution.

Authors:  James A Shapiro
Journal:  Biology (Basel)       Date:  2017-12-06

4.  Whole-genome sequencing reveals complex chromosome rearrangement disrupting NIPBL in infant with Cornelia de Lange syndrome.

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Journal:  Am J Med Genet A       Date:  2020-03-03       Impact factor: 2.802

Review 5.  The Iceberg under Water: Unexplored Complexity of Chromoanagenesis in Congenital Disorders.

Authors:  Cinthya J Zepeda-Mendoza; Cynthia C Morton
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Review 6.  Human Structural Variation: Mechanisms of Chromosome Rearrangements.

Authors:  Brooke Weckselblatt; M Katharine Rudd
Journal:  Trends Genet       Date:  2015-07-22       Impact factor: 11.639

Review 7.  Mechanisms of Origin, Phenotypic Effects and Diagnostic Implications of Complex Chromosome Rearrangements.

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Journal:  Mol Syndromol       Date:  2015-08-15

8.  Genome Sequencing Explores Complexity of Chromosomal Abnormalities in Recurrent Miscarriage.

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Journal:  Am J Hum Genet       Date:  2019-10-31       Impact factor: 11.025

9.  A germline chromothripsis event stably segregating in 11 individuals through three generations.

Authors:  Birgitte Bertelsen; Lusine Nazaryan-Petersen; Wei Sun; Mana M Mehrjouy; Gangcai Xie; Wei Chen; Lena E Hjermind; Peter E M Taschner; Zeynep Tümer
Journal:  Genet Med       Date:  2015-08-27       Impact factor: 8.822

10.  Epidemiological overview of multidimensional chromosomal and genome toxicity of cannabis exposure in congenital anomalies and cancer development.

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Journal:  Sci Rep       Date:  2021-07-06       Impact factor: 4.379
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