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Literature DB >> 32084359

WAPL-Dependent Repair of Damaged DNA Replication Forks Underlies Oncogene-Induced Loss of Sister Chromatid Cohesion.

Bente Benedict¹, Janne J M van Schie², Anneke B Oostra², Jesper A Balk², Rob M F Wolthuis³, Hein Te Riele⁴, Job de Lange⁵.

Abstract

Premature loss of sister chromatid cohesion at metaphase is a diagnostic marker for different cohesinopathies. Here, we report that metaphase spreads of many cancer cell lines also show premature loss of sister chromatid cohesion. Cohesion loss occurs independently of mutations in cohesion factors including SA2, a cohesin subunit frequently inactivated in cancer. In untransformed cells, induction of DNA replication stress by activation of oncogenes or inhibition of DNA replication is sufficient to trigger sister chromatid cohesion loss. Importantly, cell growth under conditions of replication stress requires the cohesin remover WAPL. WAPL promotes rapid RAD51-dependent repair and restart of broken replication forks. We propose that active removal of cohesin allows cancer cells to overcome DNA replication stress. This leads to oncogene-induced cohesion loss from newly synthesized sister chromatids that may contribute to genomic instability and likely represents a targetable cancer cell vulnerability.

Entities: Disease Gene

Keywords: DNA double strand breaks; DNA repair; DNA replication stress; KRAS; RAD51; STAG2; WAPL; cohesinopathies; oncogene-induced cohesion loss; sister chromatid cohesion

Mesh：

Substances：

Year: 2020 PMID： 32084359 DOI： 10.1016/j.devcel.2020.01.024

Source DB: PubMed Journal: Dev Cell ISSN： 1534-5807 Impact factor: 12.270

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Cited

20 in total

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Authors: Janne J M van Schie; Atiq Faramarz; Jesper A Balk; Grant S Stewart; Erika Cantelli; Anneke B Oostra; Martin A Rooimans; Joanna L Parish; Cynthia de Almeida Estéves; Katja Dumic; Ingeborg Barisic; Karin E M Diderich; Marjon A van Slegtenhorst; Mohammad Mahtab; Francesca M Pisani; Hein Te Riele; Najim Ameziane; Rob M F Wolthuis; Job de Lange
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Review 3. DNA Replication Stress and Chromosomal Instability: Dangerous Liaisons.

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4. The RECQL helicase prevents replication fork collapse during replication stress.

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6. Cohesin mutations alter DNA damage repair and chromatin structure and create therapeutic vulnerabilities in MDS/AML.

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Review 7. Cohesin Mutations in Cancer: Emerging Therapeutic Targets.

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9. ELOF1 is a transcription-coupled DNA repair factor that directs RNA polymerase II ubiquitylation.

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