Alex Paul scite author profile

SUMMARY Adult neurogenic niches harbor quiescent neural stem cells, however their in vivo identity has been elusive. Here, we prospectively isolate GFAP+CD133+ (quiescent neural stem cells, qNSCs) and GFAP+CD133+EGFR+ (activated neural stem cells, aNSCs) from the adult ventricular-subventricular zone. aNSCs are rapidly cycling, highly neurogenic in vivo and enriched in colony-forming cells in vitro. In contrast, qNSCs are largely dormant in vivo, generate olfactory bulb interneurons with slower kinetics, and only rarely form colonies in vitro. Moreover, qNSCs are Nestin-negative, a marker widely used for neural stem cells. Upon activation, qNSCs upregulate Nestin and EGFR, and become highly proliferative. Notably, qNSCs and aNSCs can interconvert in vitro. Transcriptome analysis reveals that qNSCs share features with quiescent stem cells from other organs. Finally, small molecule screening identified the GPCR ligands, S1P and PGD2, as factors that actively maintain the quiescent state of qNSCs.

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Shh signaling regulates adrenocortical development and identifies progenitors of steroidogenic lineages

King

Paul²,

Laufer³

2009

Proc. Natl. Acad. Sci. U.S.A.

191

286

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The adrenal cortex is a critical steroidogenic endocrine tissue, generated at least in part from the coelomic epithelium of the urogenital ridge. Neither the intercellular signals that regulate cortical development and maintenance nor the lineage relationships within the adrenal are well defined. We have explored adrenal Shh activity and found that Shh is expressed in relatively undifferentiated steroidogenic cells, which signal to the overlying capsule and subjacent nonsteroidogenic mesenchyme cells that we also find are progenitors of steroidogenic lineages. Shh-expressing cells also generate all steroidogenic cell types, but not nonsteroidogenic ones. Shh mutant adrenals have a thin capsule and small cortex. Our findings both support a novel dual lineage, Shh-independent and Shh-dependent, model of adrenocortical development, and identify distinct populations of adrenocortical progenitor and candidate stem cells.

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Hypothalamic regulation of regionally distinct adult neural stem cells and neurogenesis

Paul

Chaker

Doetsch

2017

Science

117

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Neural stem cells (NSCs) in specialized niches in the adult mammalian brain generate neurons throughout life. NSCs in the adult mouse ventricular-subventricular zone (V-SVZ) exhibit a regional identity and, depending on their location, generate distinct olfactory bulb interneuron subtypes. Here, we show that the hypothalamus, a brain area regulating physiological states, provides long-range regionalized input to the V-SVZ niche and can regulate specific NSC subpopulations. Hypothalamic proopiomelanocortin neurons selectively innervate the anterior ventral V-SVZ and promote the proliferation of Nkx2.1 NSCs and the generation of deep granule neurons. Accordingly, hunger and satiety regulate adult neurogenesis by modulating the activity of this hypothalamic-V-SVZ connection. Our findings reveal that neural circuitry, via mosaic innervation of the V-SVZ, can recruit distinct NSC pools, allowing on-demand neurogenesis in response to physiology and environmental signals.

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Release of stem cells from quiescence reveals gliogenic domains in the adult mouse brain

Delgado

Maldonado-Soto

Silva-Vargas

et al. 2021

Science

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Quiescent neural stem cells (NSCs) in the adult mouse ventricular-subventricular zone (V-SVZ) undergo activation to generate neurons and some glia. Here we show that platelet-derived growth factor receptor beta (PDGFRβ) is expressed by adult V-SVZ NSCs that generate olfactory bulb interneurons and glia. Selective deletion of PDGFRβ in adult V-SVZ NSCs leads to their release from quiescence, uncovering gliogenic domains for different glial cell types. These domains are also recruited upon injury. We identify an intraventricular oligodendrocyte progenitor derived from NSCs inside the brain ventricles that contacts supraependymal axons. Together, our findings reveal that the adult V-SVZ contains spatial domains for gliogenesis, in addition to those for neurogenesis. These gliogenic NSC domains tend to be quiescent under homeostasis and may contribute to brain plasticity.

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Localization of Sonic hedgehog secreting and receiving cells in the developing and adult rat adrenal cortex

Guasti

Paul

Laufer

et al. 2011

Molecular and Cellular Endocrinology

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Sonic hedgehog signaling was recently demonstrated to play an important role in murine adrenal cortex development. The organization of the rat adrenal differs from that of the mouse, with the zona glomerulosa and zona fasciculata separated by an undifferentiated zone in the rat, but not in the mouse. In the present study we aimed to determine the mRNA expression patterns of Sonic hedgehog and the hedgehog signaling pathway components Patched-1 and Gli1 in the developing and adult rat adrenal. Sonic hedgehog expression was detected at the periphery of the cortex in cells lacking CYP11B1 and CYP11B2 expression, while signal-receiving cells were localized in the overlying capsule mesenchyme. Using combined in situ hybridization and immunohistochemistry we found that the cells expressing Sonic hedgehog lie between the CYP11B2 and CYP11B1 layers, and thus Sonic hedgehog expression defines one cell population of the undifferentiated zone.

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Alex Paul

Prospective Identification and Purification of Quiescent Adult Neural Stem Cells from Their In Vivo Niche

Shh signaling regulates adrenocortical development and identifies progenitors of steroidogenic lineages

Hypothalamic regulation of regionally distinct adult neural stem cells and neurogenesis

Release of stem cells from quiescence reveals gliogenic domains in the adult mouse brain

Localization of Sonic hedgehog secreting and receiving cells in the developing and adult rat adrenal cortex

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