Pierre Flandin scite author profile

GABAergic cortical interneurons underlie the complexity of neural circuits and are particularly numerous and diverse in humans. In rodents, cortical interneurons originate in the subpallial ganglionic eminences, but their developmental origins in humans are controversial. We characterized the developing human ganglionic eminences and found that the subventricular zone (SVZ) expanded massively during the early second trimester, becoming densely populated with neural stem cells and intermediate progenitor cells. In contrast with the cortex, most stem cells in the ganglionic eminence SVZ did not maintain radial fibers or orientation. The medial ganglionic eminence exhibited unique patterns of progenitor cell organization and clustering, and markers revealed that the caudal ganglionic eminence generated a greater proportion of cortical interneurons in humans than in rodents. On the basis of labeling of newborn neurons in slice culture and mapping of proliferating interneuron progenitors, we conclude that the vast majority of human cortical interneurons are produced in the ganglionic eminences, including an enormous contribution from non-epithelial SVZ stem cells.

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Distinct molecular pathways for development of telencephalic interneuron subtypes revealed through analysis of Lhx6 mutants

Zhao

Flandin

Long

et al. 2008

J of Comparative Neurology

206

293

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Here we analyze the role of the Lhx6 lim-homeobox transcription factor in regulating the development of subsets of neocortical, hippocampal and striatal interneurons. An Lhx6 loss-of-function allele, that expresses placental alkaline phosphatase (PLAP), allowed analysis of the development and fate of Lhx6-expressing interneurons in mice lacking this homeobox transcription factor. There are Lhx6+;Dlx+ and Lhx6−;Dlx+ subtypes of tangentially migrating interneurons. Most interneurons in Lhx6PLAP/PLAP mutants migrate to the cortex, although less efficiently, and exhibit defects in populating the marginal zone and superficial parts of the neocortical plate. By contrast, migration to superficial parts of the hippocampus is not seriously affected. Furthermore, whereas parvalbumin+ and somatostatin+ interneurons do not differentiate, NPY+ interneurons are present; we suggest that these NPY+ interneurons are derived from the Lhx6−;Dlx+ subtype. Striatal interneurons show deficits distinct from pallial interneurons, including a reduction in the NPY+ subtype. We provide evidence that Lhx6 mediates these effects through promoting expression of receptors that regulate interneuron migration (ErbB4, CXCR4, CXCR7), and through promoting the expression of transcription factors either known (Arx) or implicated (bMaf, Cux2, and NPAS1) in controlling interneuron development.

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The Progenitor Zone of the Ventral Medial Ganglionic Eminence Requires Nkx2-1 to Generate Most of the Globus Pallidus But Few Neocortical Interneurons

Flandin¹,

Kimura²,

Rubenstein³

2010

J. Neurosci.

158

194

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We show that most globus pallidus neurons, but very few neocortical interneurons, are generated from the ventral medial ganglionic eminence and dorsal preoptic area based on fate mapping using an Shh-Cre allele. The Shh-expressing subpallial lineage produces parvalbumin ϩ GABAergic neurons, ChAT ϩ cholinergic neurons, and oligodendrocytes. Loss of Nkx2-1 function from the Shhexpressing domain eliminated most globus pallidus neurons, whereas most cortical and striatal interneurons continued to be generated, except for striatal cholinergic neurons. Finally, our analysis provided evidence for a novel cellular component (Nkx2-1 Ϫ ;Npas1 ϩ ) of the globus pallidus.

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Transcriptional Networks Controlled by NKX2-1 in the Development of Forebrain GABAergic Neurons

Sandberg¹,

Flandin²,

Silberberg³

et al. 2016

Neuron

116

173

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SUMMARY The embryonic basal ganglia generates multiple projection neurons and interneuron subtypes from distinct progenitor domains. Combinatorial interactions of transcription factors and chromatin are thought to regulate gene expression. In the medial ganglionic eminence, the NKX2-1 transcription factor controls regional identity and, with LHX6, is necessary to specify pallidal projection neurons and forebrain interneurons. Here, we dissected the molecular functions of NKX2-1 by defining its chromosomal binding, regulation of gene expression, and epigenetic state. NKX2-1 binding at distal regulatory elements led to a repressed epigenetic state and transcriptional repression in the ventricular zone. Conversely, NKX2-1 is required to establish a permissive chromatin state and transcriptional activation in the sub-ventricular and mantle zones. Moreover, combinatorial binding of NKX2-1 and LHX6 promotes transcriptionally permissive chromatin and activates genes expressed in cortical migrating interneurons. Our integrated approach provides a foundation for elucidating transcriptional networks guiding the development of the MGE and its descendants.

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Pierre Flandin

Non-epithelial stem cells and cortical interneuron production in the human ganglionic eminences

Distinct molecular pathways for development of telencephalic interneuron subtypes revealed through analysis of Lhx6 mutants

The Progenitor Zone of the Ventral Medial Ganglionic Eminence Requires Nkx2-1 to Generate Most of the Globus Pallidus But Few Neocortical Interneurons

Transcriptional Networks Controlled by NKX2-1 in the Development of Forebrain GABAergic Neurons

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