Mathematical modeling has predicted that ERK activity should oscillate in response to cell stimulation, but this has never been observed. To explore this inconsistency, we expressed an ERK1-GFP fusion protein in mammary epithelial cells. Following EGF stimulation, we observed rapid and continuous ERK oscillations between the nucleus and cytoplasm with a periodicity of approximately 15 minutes. These oscillations were remarkably persistent (>45 cycles), displayed an asymmetric waveform, and were highly dependent on cell density, essentially disappearing at confluency. We conclude that the ERK pathway is an intrinsic oscillator. Although the functional implications of the observed oscillations are uncertain, this property can be used to continuously monitor ERK activity in single cells.
Revised: February 18, 2010 |
Published: December 1, 2009
Citation
Shankaran H., D.L. Ippolito, W.B. Chrisler, H. Resat, N. Bollinger, L.K. Opresko, and H.S. Wiley. 2009.Rapid and Sustained Nuclear-Cytoplasmic ERK Oscillations Induced by Epidermal Growth Factor.Molecular Systems Biology 5.PNNL-SA-54421.doi:10.1038/msb.2009.90