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Computational modeling reveals how interplay between components of a GTPase-cycle module regulates signal transduction. | LitMetric

Computational modeling reveals how interplay between components of a GTPase-cycle module regulates signal transduction.

Proc Natl Acad Sci U S A

Departments of Chemistry and Biochemistry, Cellular and Molecular Medicine, and Bioengineering and San Diego Supercomputer Center, University of California at San Diego, 9500 Gilman Drive, La Jolla, CA 92093, USA.

Published: November 2004

AI Article Synopsis

  • Heterotrimeric G protein signaling involves G proteins, active G protein-coupled receptors, and GTPase-activating proteins, which together form GTPase-cycle modules that regulate signaling activity.
  • A new computational model predicts 16 distinct signaling behaviors based on the local concentrations of these proteins, highlighting the importance of their spatial organization.
  • The model helps explain experimental data where GTPase-activating proteins do not change maximal signaling but speed up the process, offering a framework for understanding the effects of protein concentration variations on G protein signaling.

Article Abstract

Heterotrimeric G protein signaling is regulated by signaling modules composed of heterotrimeric G proteins, active G protein-coupled receptors (Rs), which activate G proteins, and GTPase-activating proteins (GAPs), which deactivate G proteins. We term these modules GTPase-cycle modules. The local concentrations of these proteins are spatially regulated between plasma membrane microdomains and between the plasma membrane and cytosol, but no data or models are available that quantitatively explain the effect of such regulation on signaling. We present a computational model of the GTPase-cycle module that predicts that the interplay of local G protein, R, and GAP concentrations gives rise to 16 distinct signaling regimes and numerous intermediate signaling phenomena. The regimes suggest alternative modes of the GTPase-cycle module that occur based on defined local concentrations of the component proteins. In one mode, signaling occurs while G protein and receptor are unclustered and GAP eliminates signaling; in another, G protein and receptor are clustered and GAP can rapidly modulate signaling but does not eliminate it. Experimental data from multiple GTPase-cycle modules is interpreted in light of these predictions. The latter mode explains previously paradoxical data in which GAP does not alter maximal current amplitude of G protein-activated ion channels, but hastens signaling. The predictions indicate how variations in local concentrations of the component proteins create GTPase-cycle modules with distinctive phenotypes. They provide a quantitative framework for investigating how regulation of local concentrations of components of the GTPase-cycle module affects signaling.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC524695PMC
http://dx.doi.org/10.1073/pnas.0407009101DOI Listing

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