Abstract

Continuous development of the cerebral cortex from the prenatal to postnatal period depends on neurons and glial cells, both of which are generated from neural progenitor cells (NPCs). Owing to technical limitations regarding the transfer of genes into mouse brain, the mechanisms behind the long-term development of the cerebral cortex have not been well studied. Plasmid transfection into NPCs in embryonic mouse brains by in utero electroporation (IUE) is a widely used technique aimed at expressing transgenes in NPCs and their recent progeny neurons. Because the plasmids in NPCs are attenuated with each cell division, the transgene is not expressed in their descendants, including glial cells. The present study shows that an Epstein-Barr virus-based plasmid (EB-oriP plasmid) is helpful for studying long-term cerebral cortex development. The use of the EB-oriP plasmid for IUE allowed transgene expression even in the descendant progeny cells of adult mouse brains. Combining the EB-oriP plasmid with the shRNA expression cassette allowed examination of the genes of interest in the continuous development of the cerebral cortex. Furthermore, preferential transgene expression was achieved in combination with cell type-specific promoter-driven transgene expression. Meanwhile, introducing the EB-oriP plasmid twice into the same individual embryos during separate embryonic development stages suggested heterogeneity of NPCs. In summary, IUE using the EB-oriP plasmid is a novel option to study the long-term development of the cerebral cortex in mice.

Highlights

  • The adult cerebral cortex in mammals is composed of a diverse array of neurons and glial cells

  • In the coronal sections of the cerebral cortex, green fluorescent protein (GFP)-labeled neurons were observed in the superficial layer (Fig 1C and 1D, right, respectively) with their axons extended to the contralateral cortex, similar to the GFP-labeled neurons transfected with the control plasmid in transfected brains (Fig 1C and 1D, left, respectively)

  • The EB-oriP plasmid introduced by in utero electroporation (IUE) was demonstrated to allow persistent and inheritable transgene expression in all known neural progenitor cells (NPCs) progeny in the cerebral cortex of mice

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Summary

Introduction

The adult cerebral cortex in mammals is composed of a diverse array of neurons and glial cells. NPCs switch to produce mainly glial cells postnatally [4,5,6].

Methods
Results
Conclusion

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