Design principles of nuclear receptor signaling: how complex networking improves signal transduction

Alexey N Kolodkin; Frank J Bruggeman; Nick Plant; Martijn J Moné; Barbara M Bakker; Moray J Campbell; Johannes P T M van Leeuwen; Carsten Carlberg; Jacky L Snoep; Hans V Westerhoff

doi:10.1038/msb.2010.102

Molecular Systems Biology (Jan 2010)

Design principles of nuclear receptor signaling: how complex networking improves signal transduction

Alexey N Kolodkin,
Frank J Bruggeman,
Nick Plant,
Martijn J Moné,
Barbara M Bakker,
Moray J Campbell,
Johannes P T M van Leeuwen,
Carsten Carlberg,
Jacky L Snoep,
Hans V Westerhoff

Affiliations

Alexey N Kolodkin: Molecular Cell Physiology, VU University Amsterdam Amsterdam The Netherlands
Frank J Bruggeman: Molecular Cell Physiology, VU University Amsterdam Amsterdam The Netherlands
Nick Plant: Centre for Toxicology, Faculty of Health and Medical Sciences, University of Surrey Guildford UK
Martijn J Moné: Molecular Cell Physiology, VU University Amsterdam Amsterdam The Netherlands
Barbara M Bakker: Molecular Cell Physiology, VU University Amsterdam Amsterdam The Netherlands
Moray J Campbell: Department of Pharmacology and Therapeutics, Roswell Park Cancer Institute, Elm & Carlton Streets Buffalo NY USA
Johannes P T M van Leeuwen: Department of Internal Medicine, Erasmus MC Rotterdam The Netherlands
Carsten Carlberg: Life Sciences Research Unit, University of Luxembourg Luxembourg Luxembourg
Jacky L Snoep: Molecular Cell Physiology, VU University Amsterdam Amsterdam The Netherlands
Hans V Westerhoff: Molecular Cell Physiology, VU University Amsterdam Amsterdam The Netherlands

DOI: https://doi.org/10.1038/msb.2010.102
Journal volume & issue: Vol. 6, no. 1
pp. n/a – n/a

Abstract

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The topology of nuclear receptor (NR) signaling is captured in a systems biological graphical notation. This enables us to identify a number of ‘design’ aspects of the topology of these networks that might appear unnecessarily complex or even functionally paradoxical. In realistic kinetic models of increasing complexity, calculations show how these features correspond to potentially important design principles, e.g.: (i) cytosolic ‘nuclear’ receptor may shuttle signal molecules to the nucleus, (ii) the active export of NRs may ensure that there is sufficient receptor protein to capture ligand at the cytoplasmic membrane, (iii) a three conveyor belts design dissipating GTP‐free energy, greatly aids response, (iv) the active export of importins may prevent sequestration of NRs by importins in the nucleus and (v) the unspecific nature of the nuclear pore may ensure signal‐flux robustness. In addition, the models developed are suitable for implementation in specific cases of NR‐mediated signaling, to predict individual receptor functions and differential sensitivity toward physiological and pharmacological ligands.

Published in Molecular Systems Biology

ISSN: 1744-4292 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General); Medicine: Medicine (General)
Website: https://www.embopress.org/journal/17444292

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