TRANSCRIPTION FACTOR RFX3 STABILIZES MAMMARY BASAL CELL IDENTITY

Abstract

The myoepithelial cell compartment of the murine postnatal mammary gland is generated from basal cap cells in the terminal end bud and maintained by self-renewal. Transdifferentiation to the luminal lineage does not normally occur but can be induced by DNA damage, luminal cell death or transplantation into a recipient mammary fat pad. Myoepithelial cells cultivated in vitro can also transdifferentiate towards the luminal lineage. Little is known about the molecular mechanisms and gene regulatory networks underlying this plasticity. Using a transgenic mouse (Tg11.5kb-GFP) that marks cap cells with GFP, we discovered that mature myoepithelial cells placed in culture begin to express GFP within ~24 hrs and later express the Keratin 8 (K8) luminal marker. Cell tracking showed that most K8+ cells arose from GFP+ cells, suggesting that myoepithelial cells de-differentiate towards a progenitor state before changing lineage. Differential gene expression analysis, comparing pure GFP+ cap cells with mature myoepithelial cells, identified multiple transcription factors that iRegulon predicted might regulate the myoepithelial to cap cell transition. Knockout of one of these genes, Regulatory Factor 3 (Rfx3), significantly reduced the population of GFP+ cells and increased differentiation to the K8+ luminal lineage. Rfx3 knockout also reduced mammosphere growth and mammary gland regeneration efficiency in a transplantation assay, but had no effect on proliferation in vitro. Together, these data support a key role for Rfx3 in the stabilization of the mammary basal cell lineages.