A BRCA1 coiled-coil domain variant disrupting PALB2 interaction promotes the development of mammary tumors and confers a targetable defect in homologous recombination repair.
Emilia M PulverChirantani MukherjeeGerarda van de KampStefan J RoobolMagdalena B RotherHanneke van der GuldenRoebi de BruijnMaria Valeria LattanzioEline van der BurgAnne Paulien DrenthNicole S VerkaikKerstin HahnSjoerd KlarenbeekRenske de Korte-GrimmerinkMarieke van de VenColin E J PritchardIvo J HuijbersBing XiaDik C van GentJeroen EssersHaico van AttikumArnab Ray ChaudhuriPeter BouwmanJos JonkersPublished in: Cancer research (2021)
The BRCA1 tumor suppressor gene encodes a multi-domain protein for which several functions have been described. These include a key role in homologous recombination repair (HRR) of DNA double-strand breaks (DSB), which is shared with two other high-risk hereditary breast cancer suppressors, BRCA2 and PALB2. Although both BRCA1 and BRCA2 interact with PALB2, BRCA1 missense variants affecting its PALB2-interacting coiled-coil domain are considered variants of uncertain clinical significance (VUS). Using genetically engineered mice, we show here that a BRCA1 coiled-coil domain VUS, Brca1 p.L1363P, disrupts the interaction with PALB2 and leads to embryonic lethality. Brca1 p.L1363P led to a similar acceleration in the development of Trp53-deficient mammary tumors as Brca1 loss, but the tumors showed distinct histopathological features, with more stable DNA copy number profiles in Brca1 p.L1363P tumors. Nevertheless, Brca1 p.L1363P mammary tumors were HRR-incompetent and responsive to cisplatin and PARP inhibition. Overall, these results provide the first direct evidence that a BRCA1 missense variant outside of the RING and BRCT domains increases the risk of breast cancer.