Abstract 2053: Molecular characterization of BRCA1c.5339T>C missense mutation in DNA damage response of triple-negative breast cancer cells

Abstract

Abstract Purpose Recent studies re-classified the c.5339T->C; p.Leu1780Pro (L1780P) BRCA1 missense mutation as “likely pathogenic” in ACMG classification, which shows high prevalence in Korean population. This study aims to reveal the molecular mechanisms and therapeutic relevance of BRCA1 L1780P mutation in DNA damaging response of triple-negative breast cancer (TNBC) cells. Method We established MDA-MB 231 and HCC1937 TNBC cell lines expressing BRCA1 wild-type and BRCA1 L1780P by stable transfection of plasmid DNAs. We performed cell proliferation assays of the TNBC cell lines with treatment of olaparib and carboplatin. We compared the protein and mRNA expression level of RAD51 in BRCA1 wild-type and L1780 transfected TNBC cell lines by western blot and RT-PCR, and BRCA1-mediated DNA damaging responses were evaluated by immunofluorescence staining of RAD51 upon olaparib and carboplatin treatment. The growth inhibitory potential of RAD51 inhibitor, RI-1 was tested in BRCA1 L1780P transfected TNBC cell lines. Results BRCA1 L1780P transfected TNBC cells showed higher migration and invasion capacity, as well as increased sensitivity to olaparib and carboplatin compared to BRCA1 wild-type transfected cells. The induction of RAD51 expression on carboplatin treatment was significantly decreased in BRCA1 L1780P TNBC cells compared with BRCA1 wild-type cells. BRCA1 L1780P transfected TNBC cells showed also showed reduced nuclear RAD51 foci formation on carboplatin and olaparib treatment. The molecular interaction between p-BRCA1 and ATM was decreased by BRCA1 L1780P introduction in TNBC cells, suggesting BRCA1 L1780P mutation disrupts binding of p-BRCA1-ATM. In a cell proliferation assay, BRCA1 L1780P transfected TNBC cells were highly sensitive to RAD51 inhibitor (IC50 = 4.15μM). Conclusion This study shows BRCA1 L1780P mutation causes defects in DNA damage responses of TNBC cells by disrupting molecular interaction between p-BRCA1 and ATM, resulting in RAD51 downregulation. The combinatory inhibition of RAD51 and PARP is a candidate strategy for TNBCs with BRCA1 L1780P mutation. Keywords: Triple-negative Breast Cancer; BRCA1 L1780 Mutation; Homologous Recombination Deficiency; RAD51 Citation Format: Jeong Dong Lee, Min Hwan Kim, Yeon A Choi, Won-Ji Ryu, Hyun Ju Han, Ae Ran Choi, Tae Yeong Kim, Joo Hyuk Sohn. Molecular characterization of BRCA1c.5339T>C missense mutation in DNA damage response of triple-negative breast cancer cells [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 2053.