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Cellular Notch responsiveness is defined by phosphoinositide 3-kinase-dependent signals

✍ Scribed by Grahame Mckenzie; George Ward; Yvette Stallwood; Emmanuel Briend; Sofia Papadia; Andrew Lennard; Martin Turner; Brian Champion; Giles E Hardingham

Book ID: 104492558
Publisher: BioMed Central
Year: 2006
Tongue: English
Weight: 1015 KB
Volume: 7
Category: Article
ISSN: 1471-2121
DOI: 10.1186/1471-2121-7-10

No coin nor oath required. For personal study only.

✦ Synopsis

Background

Notch plays a wide-ranging role in controlling cell fate, differentiation and development. The PI3K-Akt pathway is a similarly conserved signalling pathway which regulates processes such as differentiation, proliferation and survival. Mice with disrupted Notch and PI3K signalling show phenotypic similarities during haematopoietic cell development, suggesting functional interaction between these pathways.

Results

We show that cellular responsiveness to Notch signals depends on the activity of the PI3K-Akt pathway in cells as diverse as CHO cells, primary T-cells and hippocampal neurons. Induction of the endogenous PI3K-Akt pathway in CHO cells (by the insulin pathway), in T-cells (via TCR activation) or in neurons (via TrKB activation) potentiates Notch-dependent responses. We propose that the PI3K-Akt pathway exerts its influence on Notch primarily via inhibition of GSK3-beta, a kinase known to phosphorylate and regulate Notch signals.

Conclusion

The PI3K-Akt pathway acts as a "gain control" for Notch signal responses. Since physiological levels of intracellular Notch are often low, coincidence with PI3K-activation may be crucial for induction of Notch-dependent responses.

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