Abstract:
:Previous studies have raised the possibility that Wnt signaling may regulate both neural progenitor maintenance and neuronal differentiation within a single population. Here we investigate the role of Wnt/β-catenin activity in the zebrafish hypothalamus and find that the pathway is first required for the proliferation of unspecified hypothalamic progenitors in the embryo. At later stages, including adulthood, sequential activation and inhibition of Wnt activity is required for the differentiation of neural progenitors and negatively regulates radial glia differentiation. The presence of Wnt activity is conserved in hypothalamic progenitors of the adult mouse, where it plays a conserved role in inhibiting the differentiation of radial glia. This study establishes the vertebrate hypothalamus as a model for Wnt-regulated postembryonic neural progenitor differentiation and defines specific roles for Wnt signaling in neurogenesis.
journal_name
Dev Celljournal_title
Developmental cellauthors
Wang X,Kopinke D,Lin J,McPherson AD,Duncan RN,Otsuna H,Moro E,Hoshijima K,Grunwald DJ,Argenton F,Chien CB,Murtaugh LC,Dorsky RIdoi
10.1016/j.devcel.2012.07.012subject
Has Abstractpub_date
2012-09-11 00:00:00pages
624-36issue
3eissn
1534-5807issn
1878-1551pii
S1534-5807(12)00331-0journal_volume
23pub_type
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