Literature DB >> 25349192

APC/C(Cdh1) controls CtIP stability during the cell cycle and in response to DNA damage.

Lorenzo Lafranchi1, Harmen R de Boer2, Elisabeth G E de Vries2, Shao-En Ong3, Alessandro A Sartori4, Marcel A T M van Vugt5.   

Abstract

Human cells have evolved elaborate mechanisms for responding to DNA damage to maintain genome stability and prevent carcinogenesis. For instance, the cell cycle can be arrested at different stages to allow time for DNA repair. The APC/C(C) (dh1) ubiquitin ligase mainly regulates mitotic exit but is also implicated in the DNA damage-induced G2 arrest. However, it is currently unknown whether APC/C(C) (dh1) also contributes to DNA repair. Here, we show that Cdh1 depletion causes increased levels of genomic instability and enhanced sensitivity to DNA-damaging agents. Using an integrated proteomics and bioinformatics approach, we identify CtIP, a DNA-end resection factor, as a novel APC/C(C) (dh1) target. CtIP interacts with Cdh1 through a conserved KEN box, mutation of which impedes ubiquitylation and downregulation of CtIP both during G1 and after DNA damage in G2. Finally, we find that abrogating the CtIP-Cdh1 interaction results in delayed CtIP clearance from DNA damage foci, increased DNA-end resection, and reduced homologous recombination efficiency. Combined, our results highlight the impact of APC/C(C) (dh1) on the maintenance of genome integrity and show that this is, at least partially, achieved by controlling CtIP stability in a cell cycle- and DNA damage-dependent manner.
© 2014 The Authors.

Entities:  

Keywords:  Cdh1; CtIP; DNA damage; DNA double‐strand break repair; cell cycle

Mesh:

Substances:

Year:  2014        PMID: 25349192      PMCID: PMC4282561          DOI: 10.15252/embj.201489017

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  83 in total

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Review 7.  Role of Deubiquitinating Enzymes in DNA Repair.

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Review 8.  Ubiquitin ligases in oncogenic transformation and cancer therapy.

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10.  Critical DNA damaging pathways in tumorigenesis.

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