Feedback regulation of apical progenitor fate by immature neurons through Wnt7-Celsr3-Fzd3 signalling

Wei Wang; Yves Jossin; Guoliang Chai; Wen Hui Lien; Fadel Tissir; Andre M. Goffinet

doi:10.1038/ncomms10936

Feedback regulation of apical progenitor fate by immature neurons through Wnt7-Celsr3-Fzd3 signalling

Wei Wang
, Yves Jossin
, Guoliang Chai
, Wen Hui Lien
, Fadel Tissir
, Andre M. Goffinet^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

36 Citations (Scopus)

Abstract

Sequential generation of neurons and glial cells during development is critical for the wiring and function of the cerebral cortex. This process requires accurate coordination of neural progenitor cell (NPC) fate decisions, by NPC-autonomous mechanisms as well as by negative feedback from neurons. Here, we show that neurogenesis is protracted and gliogenesis decreased in mice with mutations of genes Celsr3 and Fzd3. This phenotype is not due to gene inactivation in progenitors, but rather in immature cortical neurons. Mutant neurons are unable to upregulate expression of Jag1 in response to cortical Wnt7, resulting in blunted activation of Notch signalling in NPC. Thus, Celsr3 and Fzd3 enable immature neurons to respond to Wnt7, upregulate Jag1 and thereby facilitate feedback signals that tune the timing of NPC fate decisions via Notch activation.

Original language	English
Article number	10936
Journal	Nature Communications
Volume	7
DOIs	https://doi.org/10.1038/ncomms10936
Publication status	Published - 2016
Externally published	Yes

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title = "Feedback regulation of apical progenitor fate by immature neurons through Wnt7-Celsr3-Fzd3 signalling",

abstract = "Sequential generation of neurons and glial cells during development is critical for the wiring and function of the cerebral cortex. This process requires accurate coordination of neural progenitor cell (NPC) fate decisions, by NPC-autonomous mechanisms as well as by negative feedback from neurons. Here, we show that neurogenesis is protracted and gliogenesis decreased in mice with mutations of genes Celsr3 and Fzd3. This phenotype is not due to gene inactivation in progenitors, but rather in immature cortical neurons. Mutant neurons are unable to upregulate expression of Jag1 in response to cortical Wnt7, resulting in blunted activation of Notch signalling in NPC. Thus, Celsr3 and Fzd3 enable immature neurons to respond to Wnt7, upregulate Jag1 and thereby facilitate feedback signals that tune the timing of NPC fate decisions via Notch activation.",

author = "Wei Wang and Yves Jossin and Guoliang Chai and Lien, \{Wen Hui\} and Fadel Tissir and Goffinet, \{Andre M.\}",

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volume = "7",

journal = "Nature Communications",

issn = "2041-1723",

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TY - JOUR

T1 - Feedback regulation of apical progenitor fate by immature neurons through Wnt7-Celsr3-Fzd3 signalling

AU - Wang, Wei

AU - Jossin, Yves

AU - Chai, Guoliang

AU - Lien, Wen Hui

AU - Tissir, Fadel

AU - Goffinet, Andre M.

PY - 2016

Y1 - 2016

N2 - Sequential generation of neurons and glial cells during development is critical for the wiring and function of the cerebral cortex. This process requires accurate coordination of neural progenitor cell (NPC) fate decisions, by NPC-autonomous mechanisms as well as by negative feedback from neurons. Here, we show that neurogenesis is protracted and gliogenesis decreased in mice with mutations of genes Celsr3 and Fzd3. This phenotype is not due to gene inactivation in progenitors, but rather in immature cortical neurons. Mutant neurons are unable to upregulate expression of Jag1 in response to cortical Wnt7, resulting in blunted activation of Notch signalling in NPC. Thus, Celsr3 and Fzd3 enable immature neurons to respond to Wnt7, upregulate Jag1 and thereby facilitate feedback signals that tune the timing of NPC fate decisions via Notch activation.

AB - Sequential generation of neurons and glial cells during development is critical for the wiring and function of the cerebral cortex. This process requires accurate coordination of neural progenitor cell (NPC) fate decisions, by NPC-autonomous mechanisms as well as by negative feedback from neurons. Here, we show that neurogenesis is protracted and gliogenesis decreased in mice with mutations of genes Celsr3 and Fzd3. This phenotype is not due to gene inactivation in progenitors, but rather in immature cortical neurons. Mutant neurons are unable to upregulate expression of Jag1 in response to cortical Wnt7, resulting in blunted activation of Notch signalling in NPC. Thus, Celsr3 and Fzd3 enable immature neurons to respond to Wnt7, upregulate Jag1 and thereby facilitate feedback signals that tune the timing of NPC fate decisions via Notch activation.

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DO - 10.1038/ncomms10936

M3 - Article

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AN - SCOPUS:84987937146

SN - 2041-1723

VL - 7

JO - Nature Communications

JF - Nature Communications

M1 - 10936

ER -

Feedback regulation of apical progenitor fate by immature neurons through Wnt7-Celsr3-Fzd3 signalling

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