Nikolai Schnittke scite author profile

The ability of the olfactory epithelium (OE) to regenerate after injury is mediated by at least two populations of presumed stem cells – globose basal cells (GBCs) and horizontal basal cells (HBCs). Of the two, GBCs are molecularly and phenotypically analogous to the olfactory progenitors of the embryonic placode (OPPs). In contrast, HBCs are a reserve stem cell population that appears later in development and requires activation by severe epithelial damage before contributing to epithelial reconstitution. Neither HBC emergence nor the mechanism of activation after injury is understood. Here we show that the transcription factor p63 (Trp63), which is expressed selectively by adult HBCs, is required for HBC differentiation. The first evidence of HBC differentiation is the expression of p63 by cells that closely resemble embryonic OPPs and adult GBCs by morphology and expression of the transcription factors Sox2, Ascl1, and Hes1. HBC formation is delayed in Ascl1 knockout OE and is completely abrogated in p63-null mice. Strikingly, other cell types of the OE form normally in the p63 knockout OE. The role of p63 in HBC differentiation appears to be conserved in the regenerating rat OE, where HBCs disappear and then reappear after tissue lesion. Finally, p63 protein is down-regulated in HBCs activated by lesion to become multipotent progenitor cells. Taken together, our data identify a novel mechanism for the generation of a reserve stem cell population and suggest a p63-dependent molecular switch is responsible for activating reserve stem cells when they are needed.

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Transcription factor p63 controls the reserve status but not the stemness of horizontal basal cells in the olfactory epithelium

Schnittke

Herrick

Lin

et al. 2015

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

115

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Adult tissue stem cells can serve two broad functions: to participate actively in the maintenance and regeneration of a tissue or to wait in reserve and participate only when activated from a dormant state. The adult olfactory epithelium, a site for ongoing, life-long, robust neurogenesis, contains both of these functional stem cell types. Globose basal cells (GBCs) act as the active stem cell population and can give rise to all the differentiated cells found in the normal tissue. Horizontal basal cells (HBCs) act as reserve stem cells and remain dormant unless activated by tissue injury. Here we show that HBC activation following injury by the olfactotoxic gas methyl bromide is coincident with the down-regulation of protein 63 (p63) but anticipates HBC proliferation. Gain- and loss-of-function studies show that this down-regulation of p63 is necessary and sufficient for HBC activation. Moreover, activated HBCs give rise to GBCs that persist for months and continue to act as bona fide stem cells by participating in tissue maintenance and regeneration over the long term. Our analysis provides mechanistic insight into the dynamics between tissue stem cell subtypes and demonstrates that p63 regulates the reserve state but not the stem cell status of HBCs.

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Notch1 maintains dormancy of olfactory horizontal basal cells, a reserve neural stem cell

Herrick

Lin

Peterson

et al. 2017

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

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The remarkable capacity of the adult olfactory epithelium (OE) to regenerate fully both neurosensory and nonneuronal cell types after severe epithelial injury depends on life-long persistence of two stem cell populations: the horizontal basal cells (HBCs), which are quiescent and held in reserve, and mitotically active globose basal cells. It has recently been demonstrated that down-regulation of the ΔN form of the transcription factor p63 is both necessary and sufficient to release HBCs from dormancy. However, the mechanisms by which p63 is down-regulated after acute OE injury remain unknown. To identify the cellular source of potential signaling mechanisms, we assessed HBC activation after neuron-only and sustentacular cell death. We found that ablation of sustentacular cells is sufficient for HBC activation to multipotency. By expression analysis, nextgeneration sequencing, and immunohistochemical examination, down-regulation of Notch pathway signaling is coincident with HBC activation. Therefore, using HBC-specific conditional knockout of Notch receptors and overexpression of N1ICD, we show that Notch signaling maintains p63 levels and HBC dormancy, in contrast to its suppression of p63 expression in other tissues. Additionally, Notch1, but not Notch2, is required to maintain HBC dormancy after selective neuronal degeneration. Taken together, our data indicate that the activation of HBCs observed after tissue injury or sustentacular cell ablation is caused by the reduction/elimination of Notch signaling on HBCs; elimination of Jagged1 expressed by sustentacular cells may be the ligand responsible.Notch | olfactory epithelium | reserve stem cell | trp63

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Canonical Wnt signaling promotes the proliferation and neurogenesis of peripheral olfactory stem cells during postnatal development and adult regeneration

Wang

Yamagami

Gan

et al. 2011

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The mammalian olfactory epithelium (OE) has a unique stem cell or progenitor niche, which is responsible for the constant peripheral neurogenesis throughout the lifespan of the animal. However, neither the signals that regulate the behavior of these cells nor the lineage properties of the OE stem cells are well understood. Multiple Wnt signaling components exhibit dynamic expression patterns in the developing OE. We generated Wnt signaling reporter TOPeGFP transgenic mice and found TOPeGFP activation predominantly in proliferating Sox2+ OE basal cells during early postnatal development. FACS-isolated TOPeGFP+ OE basal cells are required, but are not sufficient, for formation of spheres. Wnt3a significantly promotes the proliferation of the Sox2+ OE sphere cells. Wnt-stimulated OE sphere cells maintain their multipotency and can differentiate into most types of neuronal and non-neuronal epithelial cells. Also, Wnt activators shift the production of differentiated cells toward olfactory sensory neurons. Moreover, TOPeGFP+ cells are robustly increased in the adult OE after injury. In vivo administration of Wnt modulators significantly alters the regeneration potential. This study demonstrates the role of the canonical Wnt signaling pathway in the regulation of OE stem cells or progenitors during development and regeneration.

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FBXW7 mutation in adult T-cell and B-cell acute lymphocytic leukemias

Song¹,

Schnittke²,

Zaat³

et al. 2008

Leukemia Research

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