DNA double-strand breaks are the most critical DNA damage to cells, and their repair is tightly regulated to maintain cellular integrity. Some cancers exhibit homologous recombination deficiency (HRD), a faithful double-strand break repair system, making them more sensitive to poly (ADP ribose) polymerase inhibitors (PARPi). PARPi have shown substantial efficacy in BRCA-mutated ovarian cancer for several years, and their indication has gradually been extended to other tumour locations such as breast, prostate and pancreas. More recently, PARPi were demonstrated to be effective in cancers with an HRD phenotype beyond BRCA mutations. Today, a major challenge is developing tests capable of detecting the HRD phenotype of cancers (HRD tests) and predicting sensitivity to PARPi to select patients likely to benefit from this therapy. This review provides a synthesis of the existing HRD tests, divided into three main approaches to detect HRD: the investigation of the HRD causes, the study of its consequences and the evaluation of the HR activity itself.
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Article Synopsis
- Sir2 is a histone deacetylase that helps maintain the stability of ribosomal RNA genes in budding yeast by preventing DNA breaks from leading to changes in rDNA copy number.
- It does this by suppressing transcription near issues that arise during DNA replication, which can otherwise provoke double-strand breaks (DSBs) and subsequent DNA repair processes.
- When Sir2 is absent, increased transcription can lead to DSBs, resulting in unstable rDNA copy numbers and the formation of extrachromosomal DNA, highlighting the importance of Sir2 in maintaining rDNA integrity.
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