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Literature DB >> 33839019

Genome instability from nuclear catastrophe and DNA damage.

Abstract

The nuclear envelope compartmentalizes the eukaryotic genome, provides mechanical resistance, and regulates access to the chromatin. However, recent studies have identified several conditions where the nuclear membrane ruptures during interphase, breaking down this compartmentalization leading to DNA damage, chromothripsis, and kataegis. This review discusses three major circumstances that promote nuclear membrane rupture, nuclear deformation, chromatin bridges, and micronucleation, and how each of these nuclear catastrophes results in DNA damage. In addition, we highlight recent studies that demonstrate a single chromosome missegregation can initiate a cascade of events that lead to accumulating damage and even multiple rounds of chromothripsis.

Entities: Chemical

Keywords: Chromothripsis; Kataegis; Micronucleus; Nuclear envelope; Nuclear membrane rupture; TREX1

Mesh：

Year: 2021 PMID： 33839019 PMCID： PMC8494860 DOI： 10.1016/j.semcdb.2021.03.021

Source DB: PubMed Journal: Semin Cell Dev Biol ISSN： 1084-9521 Impact factor: 7.727

75 in total

1. DNA Damage Follows Repair Factor Depletion and Portends Genome Variation in Cancer Cells after Pore Migration.

Authors: Jerome Irianto; Yuntao Xia; Charlotte R Pfeifer; Avathamsa Athirasala; Jiazheng Ji; Cory Alvey; Manu Tewari; Rachel R Bennett; Shane M Harding; Andrea J Liu; Roger A Greenberg; Dennis E Discher
Journal: Curr Biol Date: 2016-12-15 Impact factor: 10.834

2. Nuclear envelope rupture and repair during cancer cell migration.

Authors: Celine M Denais; Rachel M Gilbert; Philipp Isermann; Alexandra L McGregor; Mariska te Lindert; Bettina Weigelin; Patricia M Davidson; Peter Friedl; Katarina Wolf; Jan Lammerding
Journal: Science Date: 2016-03-24 Impact factor: 47.728

3. The molecular architecture of lamins in somatic cells.

Authors: Yagmur Turgay; Matthias Eibauer; Anne E Goldman; Takeshi Shimi; Maayan Khayat; Kfir Ben-Harush; Anna Dubrovsky-Gaupp; K Tanuj Sapra; Robert D Goldman; Ohad Medalia
Journal: Nature Date: 2017-03-01 Impact factor: 49.962

4. Chromothripsis and Kataegis Induced by Telomere Crisis.

Authors: John Maciejowski; Yilong Li; Nazario Bosco; Peter J Campbell; Titia de Lange
Journal: Cell Date: 2015-12-17 Impact factor: 41.582

5. Chromothripsis during telomere crisis is independent of NHEJ, and consistent with a replicative origin.

Authors: Kez Cleal; Rhiannon E Jones; Julia W Grimstead; Eric A Hendrickson; Duncan M Baird
Journal: Genome Res Date: 2019-03-14 Impact factor: 9.043

6. Regulated lipid synthesis and LEM2/CHMP7 jointly control nuclear envelope closure.

Authors: Lauren Penfield; Raakhee Shankar; Erik Szentgyörgyi; Alyssa Laffitte; Michael Sean Mauro; Anjon Audhya; Thomas Müller-Reichert; Shirin Bahmanyar
Journal: J Cell Biol Date: 2020-05-04 Impact factor: 10.539

7. Patterns of somatic structural variation in human cancer genomes.

Authors: Yilong Li; Nicola D Roberts; Jeremiah A Wala; Ofer Shapira; Steven E Schumacher; Kiran Kumar; Ekta Khurana; Sebastian Waszak; Jan O Korbel; James E Haber; Marcin Imielinski; Joachim Weischenfeldt; Rameen Beroukhim; Peter J Campbell
Journal: Nature Date: 2020-02-05 Impact factor: 49.962

8. Micronuclei-based model system reveals functional consequences of chromothripsis in human cells.

Authors: Maja Kneissig; Kristina Keuper; Mirjam S de Pagter; Markus J van Roosmalen; Jana Martin; Hannah Otto; Verena Passerini; Aline Campos Sparr; Ivo Renkens; Fenna Kropveld; Anand Vasudevan; Jason M Sheltzer; Wigard P Kloosterman; Zuzana Storchova
Journal: Elife Date: 2019-11-28 Impact factor: 8.140

9. APOBEC3-dependent kataegis and TREX1-driven chromothripsis during telomere crisis.

Authors: John Maciejowski; Aikaterini Chatzipli; Alexandra Dananberg; Kevan Chu; Eleonore Toufektchan; Leszek J Klimczak; Dmitry A Gordenin; Peter J Campbell; Titia de Lange
Journal: Nat Genet Date: 2020-07-27 Impact factor: 38.330

10. Chromothripsis drives the evolution of gene amplification in cancer.

Authors: Ofer Shoshani; Simon F Brunner; Rona Yaeger; Peter Ly; Yael Nechemia-Arbely; Dong Hyun Kim; Rongxin Fang; Guillaume A Castillon; Miao Yu; Julia S Z Li; Ying Sun; Mark H Ellisman; Bing Ren; Peter J Campbell; Don W Cleveland
Journal: Nature Date: 2020-12-23 Impact factor: 49.962

5 in total

Review 5. Rationale for combination of paclitaxel and CDK4/6 inhibitor in ovarian cancer therapy - non-mitotic mechanisms of paclitaxel.

Authors: Elizabeth R Smith; Marilyn Huang; Matthew P Schlumbrecht; Sophia H L George; Xiang-Xi Xu
Journal: Front Oncol Date: 2022-09-15 Impact factor: 5.738