Abstract 2874: Genetic suppression reveals DNA repair-independent antagonism between BRCA1 and COBRA1 in mammary gland development

Abstract

Abstract Breast cancer susceptibility gene BRCA1 is well known for its function in double strand break (DSB) DNA repair. While BRCA1 is also implicated in transcriptional regulation, the physiological significance remains unclear. Cofactor of BRCA1 (COBRA1) is a BRCA1-binding protein and an important regulator of transcription elongation. Here we used mouse genetics to interrogate functional interaction between BRCA1 and COBRA1 during mammary gland development. Tissue-specific deletion of Cobra1 reduced mammary epithelial compartments and blocked ductal morphogenesis, alveologenesis, and lactogenesis, demonstrating a pivotal role of COBRA1 in adult tissue development. Remarkably, these developmental deficiencies due to Cobra1 knockout were largely rescued by additional loss of full-length Brca1. Furthermore, Brca1/Cobra1 double knockout restored developmental transcription at puberty, altered luminal epithelial homeostasis, yet remained deficient in homologous recombination-based DSB repair. Thus our genetic suppression analysis uncovers a previously unappreciated, DNA repair-independent function of BRCA1 in antagonizing COBRA1-dependent transcription program during mammary gland development. Citation Format: Xiaowen Zhang, Sreejith J. Nair, Huai-Chin Chiang, Yao Wang, Md Jamiul Jahid, Jianhua Ruan, Victor X. Jin, Yanfen Hu, Rong Li. Genetic suppression reveals DNA repair-independent antagonism between BRCA1 and COBRA1 in mammary gland development. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 2874.