Abstract
Women who carry pathogenic mutations in BRCA1 and BRCA2 have a lifetime risk of developing breast cancer of up to 80%. However, risk estimates vary in part due to genetic modifiers. We investigated the association of the RAD52 S346X variant as a modifier of the risk of developing breast and ovarian cancers in BRCA1 and BRCA2 mutation carriers from the Consortium of Investigators of Modifiers of BRCA1/2. The RAD52 S346X allele was associated with a reduced risk of developing breast cancer in BRCA2 carriers [per‐allele hazard ratio (HR) = 0.69, 95% confidence interval (CI) 0.56–0.86; P = 0.0008] and to a lesser extent in BRCA1 carriers (per‐allele HR = 0.78, 95% CI 0.64–0.97, P = 0.02). We examined how this variant affected DNA repair. Using a reporter system that measures repair of DNA double‐strand breaks (DSBs) by single‐strand annealing (SSA), expression of hRAD52 suppressed the loss of this repair in Rad52−/− mouse embryonic stem cells. When hRAD52 S346X was expressed in these cells, there was a significantly reduced frequency of SSA. Interestingly, expression of hRAD52 S346X also reduced the stimulation of SSA observed upon depletion of BRCA2, demonstrating the reciprocal roles for RAD52 and BRCA2 in the control of DSB repair by SSA. From an immunofluorescence analysis, we observed little nuclear localization of the mutant protein as compared to the wild‐type; it is likely that the reduced nuclear levels of RAD52 S346X explain the diminished DSB repair by SSA. Altogether, we identified a genetic modifier that protects against breast cancer in women who carry pathogenic mutations in BRCA2 (P = 0.0008) and to a lesser extent BRCA1 (P = 0.02). This RAD52 mutation causes a reduction in DSB repair by SSA, suggesting that defects in RAD52‐dependent DSB repair are linked to reduced tumor risk in BRCA2‐mutation carriers.
Highlights
The human DNA repair protein, RAD52, is an important factor in several different aspects of genome maintenance (Jalan et al, 2019)
We tested the association of RAD52 S346X with risk of developing breast or ovarian cancer in a large cohort of BRCA1 and BRCA2 mutation carriers
In assessing association of this variant with cancer, of the 15 679 BRCA1 carriers, 7889 and 2369 carriers were affected with breast and ovarian cancers, respectively; of 10 979 BRCA2 carriers, 5605 carriers and 2369 carriers were diagnosed with breast and ovarian cancers, respectively
Summary
The human DNA repair protein, RAD52 (hRAD52), is an important factor in several different aspects of genome maintenance (Jalan et al, 2019). One of the best-defined roles of hRAD52 is as a key mediator of DNA double-strand break (DSB) repair by singlestrand annealing (SSA) (Mendez-Dorantes et al, 2018; Stark et al, 2004). SSA proceeds through the annealing and ligating together of complementary single strands of repetitive genomic sequences (repeats) flanking a DSB, providing a mechanism of DSB repair that does not conserve genome structure. The importance of hRAD52 in SSA is likely due to its various biochemical activities, including binding single-stranded DNA (ssDNA) and stabilizing double-stranded DNA (dsDNA) formed upon hybridization of complementary ssDNA (Brouwer et al, 2017). Loss of multiple mechanisms of DSB repair may explain the synthetic lethality observed upon depletion of RAD52 in cells with hypomorphic BRCA2 mutations (Feng et al, 2011)
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