Summary
The mammary epithelium is organized as a bi-layer of luminal and basal/myoepithelial cells. During pregnancy the luminal compartment expands for milk production, while basal cells are thought to provide structural and contractile support. Here we reveal an unanticipated, pregnancy-specific role of basal epithelia as a central coordinator of lactogenesis. We demonstrate that genetic deletion of the transcription factor p63 (Trp63) gene exclusively within basal cells of the adult gland during pregnancy leads to dramatic defects in luminal cell proliferation and differentiation, resulting in lactation failure. This phenotype is explained by direct transcriptional activation of the EGF-family ligand gene Nrg1 by p63 selectively in basal cells, which is required for luminal ERBB4/STAT5A activation and consequent luminal progenitor cell maturation. Thus, paracrine basal-to-luminal cell signaling, controlled by p63 via NRG1, orchestrates the entire lactation program. Collectively, these findings redefine the paradigm for cellular interactions specifying the functional maturation of the mammary gland.
RUNX1 encodes a RUNX family transcription factor (TF) and was
recently identified as a novel mutated gene in human luminal breast cancers. We found
that Runx1 is expressed in all subpopulations of murine mammary
epithelial cells (MECs) except the secretory alveolar luminal cells. Conditional
knockout of Runx1 in MECs by MMTV-Cre led to a
decrease in luminal MECs, largely due to a profound reduction in the estrogen
receptor (ER)-positive mature luminal subpopulation, a phenotype that could be
rescued by the loss of either Trp53 or Rb1.
Mechanistically RUNX1 represses Elf5, a master regulatory TF gene
for alveolar cells, and regulates mature luminal TF/co-factor genes (e.g.,
Foxa1 and Cited1) involved in the ER program.
Collectively, our data identified a key regulator of the ER+ luminal
lineage whose disruption may contribute to the development of ER+
luminal breast cancer when under the background of either TP53 or
RB1 loss.DOI:
http://dx.doi.org/10.7554/eLife.03881.001
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