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Prospero acts as a binary switch between self-renewal and differentiation in Drosophila neural stem cells.

Semil P Choksi ,
Tony D Southall ,
Torsten Bossing ,
Karin Edoff ,
Elzo de Wit ,
Bettina E Fischer ,
Bas van Steensel ,
Gos Micklem ,
Andrea H Brand

Abstract

Stem cells have the remarkable ability to give rise to both self-renewing and differentiating daughter cells. Drosophila neural stem cells segregate cell-fate determinants from the self-renewing cell to the differentiating daughter at each division. Here, we show that one such determinant, the homeodomain transcription factor Prospero, regulates the choice between stem cell self-renewal and differentiation. We have identified the in vivo targets of Prospero throughout the entire genome. We show that Prospero represses genes required for self-renewal, such as stem cell fate genes and cell-cycle genes. Surprisingly, Prospero is also required to activate genes for terminal differentiation. We further show that in the absence of Prospero, differentiating daughters revert to a stem cell-like fate: they express markers of self-renewal, exhibit increased proliferation, and fail to differentiate. These results define a blueprint for the transition from stem cell self-renewal to terminal differentiation.

More about this publication

Developmental cell

Volume 11
Issue nr. 6
Pages 775-89
Publication date 01-12-2006

Full text links

Publisher website (DOI) 10.1016/j.devcel.2006.09.015
Europe PubMed Central 17141154
Pubmed 17141154

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