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Ultradian oscillations in Notch signaling regulate dynamic biological events.

Published Article
Current Topics in Developmental Biology
Publication Date
DOI: 10.1016/S0070-2153(10)92010-3
PMID: 20816400


Notch signaling regulates many dynamic processes; accordingly, expression of genes in this pathway is also dynamic. In mouse embryos, one dynamic process regulated by Notch is somite segmentation, which occurs with a 2-h periodicity. This periodic event is regulated by a biological clock called the segmentation clock, which involves cyclic expression of the Notch effector gene Hes7. Loss of Hes7 expression and sustained expression of Hes7 result in identical and severe somite defects, suggesting that Hes7 oscillation is required for proper somite segmentation. Mathematical models of this oscillator have been used to generate and test hypothesis, helping to uncover the role of negative feedback in regulating the oscillator. Oscillations of another Notch effector gene, Hes1, plays an important role in maintenance of neural stem cells. Hes1 expression oscillates with a period of about 2-3h in neural stem cells, whereas sustained Hes1 expression inhibits proliferation and differentiation of these cells, suggesting that Hes1 oscillations are important for their proper activities. Hes1 inhibits its own expression as well as the expression of the proneural gene Neurogenin2 and the Notch ligand Delta1, driving oscillations of these two genes. Delta1 oscillations in turn maintain neural stem cells by mutual activation of Notch signaling, which re-activates Hes1 to close the cycle. Hes1 expression also oscillates in embryonic stem (ES) cells. Cells expressing low and high levels of Hes1 tend to differentiate into neural and mesodermal cells, respectively. Furthermore, Hes1-null ES cells display early and uniform neural differentiation, indicating that Hes1 oscillations act to promote multipotency by generating heterogeneity in both the differentiation timing and the fate choice. Taken together, these results suggest that Notch signaling can drive short-period oscillatory expression of Hes7 and Hes1 (ultradian oscillation) and that ultradian oscillations are important for many biological events.


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