LSD1 maintains mammary luminal cell differentiation and suppresses luminal breast cancer cell invasion. Homo sapiens

LSD1 (KDM1A) is a histone demethylase that plays both oncogenic and tumor suppressor roles in breast cancer. However, the exact contexts under which it plays these opposite roles remain largely elusive. By characterizing its role in normal and cancerous luminal mammary epithelial cells (MECs), here we show that LSD1 is essential for maintaining differentiation and survival of luminal cells. LSD1-inhibition by both genetic and pharmacological approaches increases invasion of luminal breast cancer cells. Mechanistically, we find LSD1 interacts with GATA3 and their common target genes are highly related to breast cancer. LSD1 positively regulates GATA3 expression and represses that of TRIM37, a histone H2A ubiquitin ligase and breast cancer oncoprotein. LSD1-loss leads to reduced expression of several cell junction genes (e.g., CDH1, VCL, CTNNA1), possibly via TRIM37-mediated repression. Collectively, our data suggest LSD1 largely plays a tumor suppressor role in luminal breast cancer and the increased MEC invasiveness associated with LSD1-inhibition can be blocked via TRIM37-inhibition. Overall design: Total RNA obtained from MCF7 cells treated with either LSD1 siRNA, or GATA3 siRNA, or ESR1 siRNA compared to that from MCF7 cells treated with nonspecific control siRNA.