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Sanpodo: a context-dependent activator and inhibitor of Notch signaling during asymmetric divisions.


ABSTRACT: Asymmetric cell divisions generate sibling cells of distinct fates ('A', 'B') and constitute a fundamental mechanism that creates cell-type diversity in multicellular organisms. Antagonistic interactions between the Notch pathway and the intrinsic cell-fate determinant Numb appear to regulate asymmetric divisions in flies and vertebrates. During these divisions, productive Notch signaling requires sanpodo, which encodes a novel transmembrane protein. Here, we demonstrate that Drosophila sanpodo plays a dual role to regulate Notch signaling during asymmetric divisions - amplifying Notch signaling in the absence of Numb in the 'A' daughter cell and inhibiting Notch signaling in the presence of Numb in the 'B' daughter cell. In so doing, sanpodo ensures the asymmetry in Notch signaling levels necessary for the acquisition of distinct fates by the two daughter cells. These findings answer long-standing questions about the restricted ability of Numb and Sanpodo to inhibit and to promote, respectively, Notch signaling during asymmetric divisions.

SUBMITTER: Babaoglan AB 

PROVIDER: S-EPMC2781049 | biostudies-literature | 2009 Dec

REPOSITORIES: biostudies-literature

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Sanpodo: a context-dependent activator and inhibitor of Notch signaling during asymmetric divisions.

Babaoglan A Burcu AB   O'Connor-Giles Kate M KM   Mistry Hemlata H   Schickedanz Adam A   Wilson Beth A BA   Skeath James B JB  

Development (Cambridge, England) 20091111 24


Asymmetric cell divisions generate sibling cells of distinct fates ('A', 'B') and constitute a fundamental mechanism that creates cell-type diversity in multicellular organisms. Antagonistic interactions between the Notch pathway and the intrinsic cell-fate determinant Numb appear to regulate asymmetric divisions in flies and vertebrates. During these divisions, productive Notch signaling requires sanpodo, which encodes a novel transmembrane protein. Here, we demonstrate that Drosophila sanpodo  ...[more]

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