Abstract
Astrocytes play pivotal roles in metabolism and homeostasis as well as in neural development and function in a manner thought to depend on their region-specific diversity. In the mouse spinal cord, astrocytes and neurons, which are derived from a common progenitor domain (PD) and controlled by common PD-specific transcription factors, migrate radially and share their final positions. However, whether astrocytes can only interact with neurons from common PDs in the brain remains unknown. Here, we focused on subpallium-derived cells, because the subpallium generates neurons that show a diverse mode of migration. We tracked their fate by in utero electroporation of plasmids that allow for chromosomal integration of transgenes or of a Cre recombinase expression vector to reporter mice. We also used an Nkx2.1Cre mouse line to fate map the cells originating from the medial ganglionic eminence and preoptic area. We find that although neurons and astrocytes are labeled in various regions, only neurons are labeled in the neocortex, hippocampus and olfactory bulb. Furthermore, we find astrocytes derived from an Nkx 2.1-negative PD are associated with neurons from the Nkx2.1+ PD. Thus, forebrain astrocytes can associate with neurons as well as astrocytes derived from a distinct PD.
Highlights
Astrocytes from distinct progenitor domains has not been reported
The caudal ganglionic eminence (CGE) was labeled in 7 samples (Supplementary Figure S1C). These findings indicate that the site of in utero electroporation (IUE) was mostly ganglionic eminences (GEs), the lateral ganglionic eminence (LGE) and CGE tended to be preferentially labeled
The amygdala is composed of a dozen of nuclei, but here we focused on nuclei that can be recognized on a coronal section that includes both lateral (LA) and basolateral nuclei (BLA) (Fig. 4)
Summary
Astrocytes from distinct progenitor domains has not been reported. To address this issue, we labeled progenitors in the subpallium using in utero electroporation (IUE). We observed mature animals and found that labeled cells in the neocortex, hippocampus, striatum, globus pallidus, amygdala, olfactory tubercle, nucleus accumbens, lateral septal nuclei, diagonal band of Broca and piriform cortex (see Fig. 5 and Supplementary Figure S2), consistent with the previous report[41].
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