Author
Listed:
- Yuki Hattori
(Nagoya University
Japan Society for the Promotion of Science)
- Yu Naito
(Nagoya University)
- Yoji Tsugawa
(National Center for Geriatrics and Gerontology
Nagoya University
iBody Inc.)
- Shigenori Nonaka
(Exploratory Research Center on Life and Living Systems
National Institute for Basic Biology)
- Hiroaki Wake
(National Institute for Physiological Sciences
The Graduate School for Advanced Study
Kobe University
Nagoya University)
- Takashi Nagasawa
(Osaka University)
- Ayano Kawaguchi
(Nagoya University)
- Takaki Miyata
(Nagoya University)
Abstract
In the developing cortex, postmigratory neurons accumulate in the cortical plate (CP) to properly differentiate consolidating subtype identities. Microglia, despite their extensive surveying activity, temporarily disappear from the midembryonic CP. However, the mechanism and significance of this absence are unknown. Here, we show that microglia bidirectionally migrate via attraction by CXCL12 released from the meninges and subventricular zone and thereby exit the midembryonic CP. Upon nonphysiological excessive exposure to microglia in vivo or in vitro, young postmigratory and in vitro-grown CP neurons showed abnormal differentiation with disturbed expression of the subtype-associated transcription factors and genes implicated in functional neuronal maturation. Notably, this effect is primarily attributed to interleukin 6 and type I interferon secreted by microglia. These results suggest that “sanctuarization” from microglia in the midembryonic CP is required for neurons to appropriately fine-tune the expression of molecules needed for proper differentiation, thus securing the establishment of functional cortical circuit.
Suggested Citation
Yuki Hattori & Yu Naito & Yoji Tsugawa & Shigenori Nonaka & Hiroaki Wake & Takashi Nagasawa & Ayano Kawaguchi & Takaki Miyata, 2020.
"Transient microglial absence assists postmigratory cortical neurons in proper differentiation,"
Nature Communications, Nature, vol. 11(1), pages 1-18, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-15409-3
DOI: 10.1038/s41467-020-15409-3
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