Long-lived unipotent Blimp1-positive luminal stem cells drive mammary gland organogenesis throughout adult life
Long-lived unipotent Blimp1-positive luminal stem cells drive mammary gland organogenesis throughout adult life
The hierarchical relationships between various stem and progenitor cell subpopulations driving mammary gland morphogenesis and homoeostasis are poorly understood. Conditional inactivation experiments previously demonstrated that expression of the zinc finger transcriptional repressor Blimp1/PRDM1 is essential for the establishment of epithelial cell polarity and functional maturation of alveolar cells. Here we exploit a Prdm1.CreERT2-LacZ reporter allele for lineage tracing experiments. Blimp1 expression marks a rare subpopulation of unipotent luminal stem cells that initially appear in the embryonic mammary gland at around E17.5 coincident with the segregation of the luminal and basal compartments. Fate mapping at multiple time points in combination with whole-mount confocal imaging revealed these long-lived unipotent luminal stem cells survive consecutive involutions and retain their identity throughout adult life. Blimp1+ luminal stem cells give rise to Blimp1− progeny that are invariably Elf5+ERα−PR−. Thus, Blimp1 expression defines a mammary stem cell subpopulation with unique functional characteristics.
Elias, Salah
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Morgan, Marc A.
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Bikoff, Elizabeth K.
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Robertson, Elizabeth J.
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December 2017
Elias, Salah
a9b11116-8efb-44b3-8241-2f0f2af847c3
Morgan, Marc A.
08e67ddd-6ca4-4827-9a7b-7428a475181f
Bikoff, Elizabeth K.
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Robertson, Elizabeth J.
80d0f6ff-a50b-4fe4-a968-281d74b1e5de
Elias, Salah, Morgan, Marc A., Bikoff, Elizabeth K. and Robertson, Elizabeth J.
(2017)
Long-lived unipotent Blimp1-positive luminal stem cells drive mammary gland organogenesis throughout adult life.
Nature Communications, 8 (1), [1714].
(doi:10.1038/s41467-017-01971-w).
Abstract
The hierarchical relationships between various stem and progenitor cell subpopulations driving mammary gland morphogenesis and homoeostasis are poorly understood. Conditional inactivation experiments previously demonstrated that expression of the zinc finger transcriptional repressor Blimp1/PRDM1 is essential for the establishment of epithelial cell polarity and functional maturation of alveolar cells. Here we exploit a Prdm1.CreERT2-LacZ reporter allele for lineage tracing experiments. Blimp1 expression marks a rare subpopulation of unipotent luminal stem cells that initially appear in the embryonic mammary gland at around E17.5 coincident with the segregation of the luminal and basal compartments. Fate mapping at multiple time points in combination with whole-mount confocal imaging revealed these long-lived unipotent luminal stem cells survive consecutive involutions and retain their identity throughout adult life. Blimp1+ luminal stem cells give rise to Blimp1− progeny that are invariably Elf5+ERα−PR−. Thus, Blimp1 expression defines a mammary stem cell subpopulation with unique functional characteristics.
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s41467-017-01971-w
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Accepted/In Press date: 30 October 2017
e-pub ahead of print date: 20 November 2017
Published date: December 2017
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Local EPrints ID: 415805
URI: http://eprints.soton.ac.uk/id/eprint/415805
PURE UUID: 8a2c5363-4a23-4cfa-90fc-e6d9ac277b5a
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Date deposited: 24 Nov 2017 17:30
Last modified: 16 Mar 2024 04:29
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Author:
Marc A. Morgan
Author:
Elizabeth K. Bikoff
Author:
Elizabeth J. Robertson
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