Foxp1 Is Indispensable for Ductal Morphogenesis and Controls the Exit of Mammary Stem Cells from Quiescence

Overview

Journal Dev Cell

Publisher Cell Press

Specialties Cell Biology
Reproductive Medicine

Date 2018 Dec 8

PMID 30523786

Citations 14

Authors

Nai Yang Fu

Bhupinder Pal

Yunshun Chen

Felicity C Jackling

Michael Milevskiy

Francois Vaillant

Bianca D Capaldo

Fusheng Guo

Kevin H Liu

Anne C Rios

Nicholas Lim

Andrew J Kueh

David M Virshup

Marco J Herold

Haley O Tucker

Gordon K Smyth

Geoffrey J Lindeman

Jane E Visvader

Affiliations

Soon will be listed here.

Abstract

Long-lived quiescent mammary stem cells (MaSCs) are presumed to coordinate the dramatic expansion of ductal epithelium that occurs through the different phases of postnatal development, but little is known about the molecular regulators that underpin their activation. We show that ablation of the transcription factor Foxp1 in the mammary gland profoundly impairs ductal morphogenesis, resulting in a rudimentary tree throughout life. Foxp1-deficient glands were highly enriched for quiescent Tspan8 MaSCs, which failed to become activated even in competitive transplantation assays, thus highlighting a cell-intrinsic defect. Foxp1 deletion also resulted in aberrant expression of basal genes in luminal cells, inferring a role in cell-fate decisions. Notably, Foxp1 was uncovered as a direct repressor of Tspan8 in basal cells, and deletion of Tspan8 rescued the defects in ductal morphogenesis elicited by Foxp1 loss. Thus, a single transcriptional regulator Foxp1 can control the exit of MaSCs from dormancy to orchestrate differentiation and development.

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