Journal
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
Volume 22, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/ijms22010187
Keywords
allosteric sites; GPCR; dynamical correlations; normal modes; coupled motions; molecular dynamics
Funding
- European Union's Horizon 2020 research and innovation programme [848068]
- Ministerio de Ciencia, Innovacion y Universidades (Spain) [SAF2017-87199-R]
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Computational tools have been used to estimate the druggability of allosteric sites in GPCRs, but predicting hydrophobic sites remains challenging. This study introduces a dynamics-based approach using experimental structures, normal mode analysis, and molecular dynamics simulations to identify allosteric sites in beta 2AR, GCGR, and M2 receptors, showing promising predictive value.
G protein-coupled Receptors (GPCRs) play a central role in many physiological processes and, consequently, constitute important drug targets. In particular, the search for allosteric drugs has recently drawn attention, since they could be more selective and lead to fewer side effects. Accordingly, computational tools have been used to estimate the druggability of allosteric sites in these receptors. In spite of many successful results, the problem is still challenging, particularly the prediction of hydrophobic sites in the interface between the protein and the membrane. In this work, we propose a complementary approach, based on dynamical correlations. Our basic hypothesis was that allosteric sites are strongly coupled to regions of the receptor that undergo important conformational changes upon activation. Therefore, using ensembles of experimental structures, normal mode analysis and molecular dynamics simulations we calculated correlations between internal fluctuations of different sites and a collective variable describing the activation state of the receptor. Then, we ranked the sites based on the strength of their coupling to the collective dynamics. In the beta 2 adrenergic (beta 2AR), glucagon (GCGR) and M2 muscarinic receptors, this procedure allowed us to correctly identify known allosteric sites, suggesting it has predictive value. Our results indicate that this dynamics-based approach can be a complementary tool to the existing toolbox to characterize allosteric sites in GPCRs.
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