Endocrine Regulation of Stem Cells and the Niche in Adult Mammopoiesis

Adult mammopoiesis occurs in close synchronization with reproductive development when the hypothalamic-pituitary-ovarian axis delivers integral systemic hormone cues to propel mammary morphogenesis during puberty, remodeling during reproductive cycles and functional differentiation following pregnan...

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Main Author: Joshi, Purna
Other Authors: Khokha, Rama
Language:en_ca
Published: 2012
Subjects:
Online Access:http://hdl.handle.net/1807/43390
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-OTU.1807-433902013-12-18T03:39:22ZEndocrine Regulation of Stem Cells and the Niche in Adult MammopoiesisJoshi, Purnastem cellsmammary glandhormones0379Adult mammopoiesis occurs in close synchronization with reproductive development when the hypothalamic-pituitary-ovarian axis delivers integral systemic hormone cues to propel mammary morphogenesis during puberty, remodeling during reproductive cycles and functional differentiation following pregnancy. While hormones remain the driving force behind normal glandular development, increased life-time hormone exposure is a strong risk factor for breast cancer. Breast cancer heterogeneity has been attributed to different cells of origin and/or different mutation repertoires. Stem/progenitor cells are intensely investigated as cells of origin given their regenerative and self-renewal properties that provide conceivable advantage in cancer. Although hormones have a fundamental influence in breast cancer, their capacity to regulate stem/progenitor cells was unknown, and presents the central directive in this thesis. Employing mouse models, we show that mammary epithelial subpopulations and in particular, stem cells, are highly responsive to ovarian hormones and depend on key molecular events. A progesterone peak during the luteal phase of reproductive cycles results in a significant increase in stem cell-enriched basal cells and an expansion of stem cells measured by in vivo transplantation assays, with rapid development of lobuloalveoli. Progesterone was found to stimulate expression of mitogenic ligands, RANKL and Wnt4, in ER+PR+ luminal epithelial niche cells concomitant with increased expression of their receptors and target genes in the ER-PR- basal stem cell population, suggesting a cross-talk between luminal and basal cells that elicits stem cell expansion within the niche. The requirement of RANKL signaling for hormone-induced mammary stem cell dynamics was further explored utilizing mice deficient for its receptor, RANK, and by pharmacological inhibition of RANKL. Disruption of RANKL/RANK signaling resulted in abrogated activation of the basal stem cell-enriched population and alveolar progenitor cells in response to progesterone. This was accompanied by a marked reduction in cell proliferation, cell cycle regulators, alveolar lineage determinants and notably, in epithelial Wnt responsiveness. Thus, progesterone orchestrates a series of molecular events in the mammary stem cell niche where RANK is effectively positioned to deliver instructive signals to stem cells, culminating in stem cell recruitment and alveolar regeneration, processes which when deregulated have considerable potential to promote breast cancer pathogenesis.Khokha, Rama2012-112013-12-12T19:55:33ZWITHHELD_ONE_YEAR2013-12-12T19:55:33Z2013-12-12Thesishttp://hdl.handle.net/1807/43390en_ca
collection NDLTD
language en_ca
sources NDLTD
topic stem cells
mammary gland
hormones
0379
spellingShingle stem cells
mammary gland
hormones
0379
Joshi, Purna
Endocrine Regulation of Stem Cells and the Niche in Adult Mammopoiesis
description Adult mammopoiesis occurs in close synchronization with reproductive development when the hypothalamic-pituitary-ovarian axis delivers integral systemic hormone cues to propel mammary morphogenesis during puberty, remodeling during reproductive cycles and functional differentiation following pregnancy. While hormones remain the driving force behind normal glandular development, increased life-time hormone exposure is a strong risk factor for breast cancer. Breast cancer heterogeneity has been attributed to different cells of origin and/or different mutation repertoires. Stem/progenitor cells are intensely investigated as cells of origin given their regenerative and self-renewal properties that provide conceivable advantage in cancer. Although hormones have a fundamental influence in breast cancer, their capacity to regulate stem/progenitor cells was unknown, and presents the central directive in this thesis. Employing mouse models, we show that mammary epithelial subpopulations and in particular, stem cells, are highly responsive to ovarian hormones and depend on key molecular events. A progesterone peak during the luteal phase of reproductive cycles results in a significant increase in stem cell-enriched basal cells and an expansion of stem cells measured by in vivo transplantation assays, with rapid development of lobuloalveoli. Progesterone was found to stimulate expression of mitogenic ligands, RANKL and Wnt4, in ER+PR+ luminal epithelial niche cells concomitant with increased expression of their receptors and target genes in the ER-PR- basal stem cell population, suggesting a cross-talk between luminal and basal cells that elicits stem cell expansion within the niche. The requirement of RANKL signaling for hormone-induced mammary stem cell dynamics was further explored utilizing mice deficient for its receptor, RANK, and by pharmacological inhibition of RANKL. Disruption of RANKL/RANK signaling resulted in abrogated activation of the basal stem cell-enriched population and alveolar progenitor cells in response to progesterone. This was accompanied by a marked reduction in cell proliferation, cell cycle regulators, alveolar lineage determinants and notably, in epithelial Wnt responsiveness. Thus, progesterone orchestrates a series of molecular events in the mammary stem cell niche where RANK is effectively positioned to deliver instructive signals to stem cells, culminating in stem cell recruitment and alveolar regeneration, processes which when deregulated have considerable potential to promote breast cancer pathogenesis.
author2 Khokha, Rama
author_facet Khokha, Rama
Joshi, Purna
author Joshi, Purna
author_sort Joshi, Purna
title Endocrine Regulation of Stem Cells and the Niche in Adult Mammopoiesis
title_short Endocrine Regulation of Stem Cells and the Niche in Adult Mammopoiesis
title_full Endocrine Regulation of Stem Cells and the Niche in Adult Mammopoiesis
title_fullStr Endocrine Regulation of Stem Cells and the Niche in Adult Mammopoiesis
title_full_unstemmed Endocrine Regulation of Stem Cells and the Niche in Adult Mammopoiesis
title_sort endocrine regulation of stem cells and the niche in adult mammopoiesis
publishDate 2012
url http://hdl.handle.net/1807/43390
work_keys_str_mv AT joshipurna endocrineregulationofstemcellsandthenicheinadultmammopoiesis
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