Diencephalic progenitors contribute to the posterior septum through rostral migration along the hippocampal axonal pathway

Septal nuclei are telencephalic structures associated with a variety of brain functions as part of the limbic system. The two posterior septal nuclei, the triangular septal nucleus (TS) and the bed nuclei of the anterior commissure (BAC), are involved in fear and anxiety through their projections to...

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Veröffentlicht in:	Scientific reports 2018-08, Vol.8 (1), p.11728-13, Article 11728
Hauptverfasser:	Watanabe, Keisuke, Irie, Koichiro, Hanashima, Carina, Takebayashi, Hirohide, Sato, Noboru
Format:	Artikel
Sprache:	eng
Schlagworte:	13/1 13/51 14/19 631/378/2571/2578 631/378/2571/2579 64/60 Alzheimer's disease Anterior commissure Anxiety Brain Diencephalon Electroporation Fornix Gene expression Glutamatergic transmission Hippocampus Humanities and Social Sciences Limbic system multidisciplinary Neural stem cells Neurons Neurosciences Science Science (multidisciplinary) Septum Telencephalon Territory Thalamus Ventricle Ventricles (cerebral)
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description	Septal nuclei are telencephalic structures associated with a variety of brain functions as part of the limbic system. The two posterior septal nuclei, the triangular septal nucleus (TS) and the bed nuclei of the anterior commissure (BAC), are involved in fear and anxiety through their projections to the medial habenular nucleus. However, the development of both the TS and BAC remains unclear. Here, we found a novel caudal origin and putative migratory stream of mouse posterior septal neurons arising from the thalamic eminence (TE), a transient developmental structure at the rostral end of the rodent diencephalon. TE-derived cells, which have glutamatergic identity, migrated rostrally and entered the telencephalic territory by passing beneath the third ventricle. Subsequently, they turned dorsally toward the posterior septum. We also observed that TS and BAC neurons in the postnatal septum were labeled with GFP by in utero electroporation into the TE, suggesting a shared origin. Furthermore, TE-derived septal neurons migrated along the fornix, an efferent pathway from the hippocampus. These results demonstrate that posterior septal neurons have a distinct extratelencephalic origin from other septal nuclei. This heterogeneous origin may contribute to neuronal diversity of the septal nuclear complex.
doi_str_mv	10.1038/s41598-018-30020-9
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The two posterior septal nuclei, the triangular septal nucleus (TS) and the bed nuclei of the anterior commissure (BAC), are involved in fear and anxiety through their projections to the medial habenular nucleus. However, the development of both the TS and BAC remains unclear. Here, we found a novel caudal origin and putative migratory stream of mouse posterior septal neurons arising from the thalamic eminence (TE), a transient developmental structure at the rostral end of the rodent diencephalon. TE-derived cells, which have glutamatergic identity, migrated rostrally and entered the telencephalic territory by passing beneath the third ventricle. Subsequently, they turned dorsally toward the posterior septum. We also observed that TS and BAC neurons in the postnatal septum were labeled with GFP by in utero electroporation into the TE, suggesting a shared origin. Furthermore, TE-derived septal neurons migrated along the fornix, an efferent pathway from the hippocampus. These results demonstrate that posterior septal neurons have a distinct extratelencephalic origin from other septal nuclei. 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The two posterior septal nuclei, the triangular septal nucleus (TS) and the bed nuclei of the anterior commissure (BAC), are involved in fear and anxiety through their projections to the medial habenular nucleus. However, the development of both the TS and BAC remains unclear. Here, we found a novel caudal origin and putative migratory stream of mouse posterior septal neurons arising from the thalamic eminence (TE), a transient developmental structure at the rostral end of the rodent diencephalon. TE-derived cells, which have glutamatergic identity, migrated rostrally and entered the telencephalic territory by passing beneath the third ventricle. Subsequently, they turned dorsally toward the posterior septum. We also observed that TS and BAC neurons in the postnatal septum were labeled with GFP by in utero electroporation into the TE, suggesting a shared origin. Furthermore, TE-derived septal neurons migrated along the fornix, an efferent pathway from the hippocampus. These results demonstrate that posterior septal neurons have a distinct extratelencephalic origin from other septal nuclei. This heterogeneous origin may contribute to neuronal diversity of the septal nuclear complex.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>30082833</pmid><doi>10.1038/s41598-018-30020-9</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects	13/1 13/51 14/19 631/378/2571/2578 631/378/2571/2579 64/60 Alzheimer's disease Anterior commissure Anxiety Brain Diencephalon Electroporation Fornix Gene expression Glutamatergic transmission Hippocampus Humanities and Social Sciences Limbic system multidisciplinary Neural stem cells Neurons Neurosciences Science Science (multidisciplinary) Septum Telencephalon Territory Thalamus Ventricle Ventricles (cerebral)
title	Diencephalic progenitors contribute to the posterior septum through rostral migration along the hippocampal axonal pathway
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