1. Partial Reduction in BRCA1 Gene Dose Modulates DNA Replication Stress Level and Thereby Contributes to Sensitivity or Resistance
- Author
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Sandra Classen, Elena Rahlf, Johannes Jungwirth, Nina Albers, Luca Philipp Hebestreit, Alexandra Zielinski, Lena Poole, Marco Groth, Philipp Koch, Thomas Liehr, Stefanie Kankel, Nils Cordes, Cordula Petersen, Kai Rothkamm, Helmut Pospiech, and Kerstin Borgmann
- Subjects
BRCA1 ,homologous recombination ,DNA damage response ,CHK1 ,replication stress ,irradiation ,Biology (General) ,QH301-705.5 ,Chemistry ,QD1-999 - Abstract
BRCA1 is a well-known breast cancer risk gene, involved in DNA damage repair via homologous recombination (HR) and replication fork protection. Therapy resistance was linked to loss and amplification of the BRCA1 gene causing inferior survival of breast cancer patients. Most studies have focused on the analysis of complete loss or mutations in functional domains of BRCA1. How mutations in non-functional domains contribute to resistance mechanisms remains elusive and was the focus of this study. Therefore, clones of the breast cancer cell line MCF7 with indels in BRCA1 exon 9 and 14 were generated using CRISPR/Cas9. Clones with successful introduced BRCA1 mutations were evaluated regarding their capacity to perform HR, how they handle DNA replication stress (RS), and the consequences on the sensitivity to MMC, PARP1 inhibition, and ionizing radiation. Unexpectedly, BRCA1 mutations resulted in both increased sensitivity and resistance to exogenous DNA damage, despite a reduction of HR capacity in all clones. Resistance was associated with improved DNA double-strand break repair and reduction in replication stress (RS). Lower RS was accompanied by increased activation and interaction of proteins essential for the S phase-specific DNA damage response consisting of HR proteins, FANCD2, and CHK1.
- Published
- 2022
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