Dorsal Radial Glia Generate Olfactory Bulb Interneurons in the Postnatal Murine Brain

Ventura, Rachel E.; Goldman, James E.

doi:10.1523/jneurosci.0399-07.2007

Cited by 141 publications

(138 citation statements)

References 28 publications

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“…The former most likely corresponds to the structure that the authors of a previous study described as the ''subcallosal zone'' (19). Although it was initially described as a germinal zone that produces mainly oligodendrocytes, subsequent studies suggested that this dorsal area is also able to produce interneurons after birth (20,21). The migratory pathway directed from the SVZ to the nucleus accumbens we termed VMP, and the migratory cells in this pathway are probably identical to those described by De Marchis and colleagues (22).…”

Section: Discussionmentioning

confidence: 88%

Neurogenesis and widespread forebrain migration of distinct GABAergic neurons from the postnatal subventricular zone

Inta

Alfonso

Engelhardt

et al. 2008

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

236

237

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Most forebrain GABAergic interneurons in rodents are born during embryonic development in the ganglionic eminences (GE) and migrate tangentially into the cortical plate. A subset, however, continues to be generated postnatally in the subventricular zone (SVZ). These interneurons populate the olfactory bulb (OB) reached via migration in the rostral migratory stream (RMS). Employing transgenic mice expressing EGFP in 5-HT 3-positive neurons, we identified additional migratory pathways in the early postnatal brain. Time-lapse imaging experiments revealed massive migration of EGFP-positive cells from the SVZ into numerous forebrain regions, including cortex, striatum, and nucleus accumbens. The neuronal fate of the migratory EGFP-labeled cells was indicated by their doublecortin (DCX) expression. Birthdating experiments, by using 5-bromo-2-deoxyuridine (BrdU) and retrovirus-based experiments, provided evidence that migrating neuroblasts were born in the SVZ postnatally and developed a distinct GABAergic phenotype. Our results demonstrate that the SVZ is a reservoir of GABAergic interneurons not only for the OB, but also for other cortical and subcortical areas.calretinin ͉ EGFP ͉ 5-HT3A receptor ͉ inhibitory interneurons ͉ neuroblast migration

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Section: Discussionmentioning

confidence: 88%

Neurogenesis and widespread forebrain migration of distinct GABAergic neurons from the postnatal subventricular zone

Inta

Alfonso

Engelhardt

et al. 2008

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

236

237

View full text Add to dashboard Cite

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“…Several studies have shown that neural stem cells in the adult brain are not a homogeneous population, but are regionally specified and normally produce only specific subtypes of olfactory bulb interneurons. These studies have proposed that different subpopulations of neural stem cells may be distinguished either by the expression of specific transcription factors 10,11,12,13,14 and/or by their regional localization along the dorsal-ventral and anterior-posterior extents of the lateral wall 9,15,16 . As more molecular markers of the regionally specified subpopulations of adult neural stem cells are identified, wholemount imaging should provide a comprehensive view of the parcelation of these different progenitor domains along the ventricular wall.…”

Section: Representative Resultsmentioning

confidence: 99%

The Subventricular Zone En-face: Wholemount Staining and Ependymal Flow

Mirzadeh¹,

Doetsch²,

Sawamoto³

et al. 2010

JoVE

163

145

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The walls of the lateral ventricles contain the largest germinal region in the adult mammalian brain. The subventricular zone (SVZ) in these walls is an extensively studied model system for understanding the behavior of neural stem cells and the regulation of adult neurogenesis. Traditionally, these studies have relied on classical sectioning techniques for histological analysis. Here we present an alternative approach, the wholemount technique, which provides a comprehensive, en-face view of this germinal region. Compared to sections, wholemounts preserve the complete cytoarchitecture and cellular relationships within the SVZ. This approach has recently revealed that the adult neural stem cells, or type B1 cells, are part of a mixed neuroepithelium with differentiated ependymal cells lining the lateral ventricles. In addition, this approach has been used to study the planar polarization of ependymal cells and the cerebrospinal fluid flow they generate in the ventricle. With recent evidence that adult neural stem cells are a heterogeneous population that is regionally specified, the wholemount approach will likely be an essential tool for understanding the organization and parcellation of this stem cell niche.

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“…An accurate analysis at different stages showed that radial glial cells convert their morphology by retracting their basal process (Merkle et al 2004). More recently, a similar analysis of lineage-tracing in vivo showed that also dorsal radial glia, labeled at P1 or P2, give rise to subependymal stem cells (Ventura and Goldman 2007).…”

Section: Adult Subependymal Stem Cellsmentioning

confidence: 91%

Radial glia and neural stem cells

2007

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During the last decade, the role of radial glia has been radically revisited. Rather than being considered a mere structural component serving to guide newborn neurons towards their final destinations, radial glia is now known to be the main source of neurons in several regions of the central nervous system, notably in the cerebral cortex. Radial glial cells differentiate from neuroepithelial progenitors at the beginning of neurogenesis and share with their ancestors the bipolar shape and the expression of some molecular markers. Radial glia, however, can be distinguished from neuroepithelial progenitors by the expression of astroglial markers. Clonal analyses showed that radial glia is a heterogeneous population, comprising both pluripotent and different lineage-restricted neural progenitors. At late-embryonic and postnatal stages, radial glial cells give rise to the neural stem cells responsible for adult neurogenesis. Embryonic pluripotent radial glia and adult neural stem cells may be clonally linked, thus representing a lineage displaying stem cell features in both the developing and mature central nervous system.

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Dorsal Radial Glia Generate Olfactory Bulb Interneurons in the Postnatal Murine Brain

Cited by 141 publications

References 28 publications

Neurogenesis and widespread forebrain migration of distinct GABAergic neurons from the postnatal subventricular zone

Neurogenesis and widespread forebrain migration of distinct GABAergic neurons from the postnatal subventricular zone

The Subventricular Zone En-face: Wholemount Staining and Ependymal Flow

Radial glia and neural stem cells

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