Human CtIP is best known for its role in DNA end resection to initiate DNA double-strand break repair by homologous recombination. Recently, CtIP has also been shown to protect reversed replication forks from nucleolytic degradation upon DNA replication stress. However, still little is known about the DNA damage response (DDR) networks that preserve genome integrity and sustain cell survival in the context of CtIP insufficiency. Here, to reveal such potential buffering relationships, we screened a DDR siRNA library in CtIP-deficient cells to identify candidate genes that induce synthetic sickness/lethality (SSL). Our analyses unveil a negative genetic interaction between CtIP and BARD1, the heterodimeric binding partner of BRCA1. We found that simultaneous disruption of CtIP and BARD1 triggers enhanced apoptosis due to persistent replication stress-induced DNA lesions giving rise to chromosomal abnormalities. Moreover, we observed that the genetic interaction between CtIP and BARD1 occurs independently of the BRCA1-BARD1 complex formation and might be, therefore, therapeutical relevant for the treatment of BRCA-defective tumors.
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| http://dx.doi.org/10.3390/cells11040643 | DOI Listing |
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Mechanism of BRCA1-BARD1 function in DNA end resection and DNA protection.
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Institute for Research in Biomedicine, Università della Svizzera italiana (USI), Faculty of Biomedical Sciences, Bellinzona, Switzerland.
Article Synopsis
- DNA double-strand break (DSB) repair starts with DNA end resection, where the 5'-ended strands at break sites are carefully degraded, a process aided by the BRCA1-BARD1 protein complex.
- BRCA1-BARD1 not only promotes this resection process by activating specific nucleases (EXO1 and DNA2) but also works together with other proteins (like MRE11-RAD50-NBS1 and phosphorylated CtIP) to form the BRCA1-C complex, enhancing repair efficiency.
- Interestingly, while BRCA1-BARD1 supports resection, it also plays a protective role during DNA replication stress by working with the
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Institute of Molecular Cancer Research, University of Zurich, 8057 Zurich, Switzerland.
Human CtIP is best known for its role in DNA end resection to initiate DNA double-strand break repair by homologous recombination. Recently, CtIP has also been shown to protect reversed replication forks from nucleolytic degradation upon DNA replication stress. However, still little is known about the DNA damage response (DDR) networks that preserve genome integrity and sustain cell survival in the context of CtIP insufficiency.
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