Model Info:

Title:

Principles behind the multifarious control of signal transduction ERK phosphorylation and kinase/phosphatase control

Brief Description:

ERK phosphorylation and kinase/phosphatase control

Authors:

Jorrit J. Hornberg1, Frank J. Bruggeman1, Bernd Binder2, Christian R. Geest1, A. J. Marjolein Bij de Vaate1, Jan Lankelma1,3, Reinhart Heinrich2 and Hans V. Westerhoff1,4

Affiliations:

1 Department of Molecular Cell Physiology, Institute for Molecular Cell Biology, BioCentrum Amsterdam, Vrije Universiteit, Amsterdam, the Netherlands, 2 Department of Theoretical Biophysics, Humboldt University, Berlin, Germany, 3 Department of Medical Oncology, VU medical center, Amsterdam, the Netherlands, 4 Swammerdam Institute for Life Sciences, BioCentrum Amsterdam, University of Amsterdam, the Netherlands

Abstract:

General and simple principles are identified that govern signal transduction. The effects of kinase and phosphatase inhibition on a MAP kinase pathway are first examined in silico. Quantitative measures for the control of signal amplitude, duration and integral strength are introduced. We then identify and prove new principles, such that total control on signal amplitude and on final signal strength must amount to zero, and total control on signal duration and on integral signal intensity must equal )1. Collectively, kinases control amplitudes more than duration, whereas phosphatases tend to control both. We illustrate and validate these principles experimentally: (a) a kinase inhibitor affects the amplitude of EGF-induced ERK phosphorylation much more than its duration and (b) a phosphatase inhibitor influences both signal duration and signal amplitude, in particular long after EGF administration. Implications for the cellular decision between growth and differentiation are discussed.

Journal:

FEBS Journal 272 (2005) 244-258