Publication date: Available online 26 April 2018
Source:The Journal of Steroid Biochemistry and Molecular Biology
Author(s): Lautaro D. Alvarez, Adali Pecci
Neurosteroids are the principal endogenous modulators of the γ-Aminobutyric acid receptors (GABAARs), pentameric membrane-bound proteins that can be assembled from at least 19 subunits. In the most abundant GABAAR arrangement (α1β2γ2), neurosteroids can potentiate the GABA action as well as produce a direct activation of the channel. The recent crystal structures of neurosteroids bound to α homopentameric GABAAR reveal binding to five equivalent sites. However, these results have been obtained using receptors that are not physiologically relevant, suggesting a need to investigate neurosteroid binding to heteropentameric receptors that exist in the central nervous system. In a previous work, we predicted the neurosteroid binding site by applying molecular modeling methods on the β3 homopentamer. Here we construct a homology model of the transmembrane domain of the heteropentameric α1β2γ2 receptor and then, by combining docking and molecular dynamics simulations, we analyzed neurosteroid binding. Results show that the five neurosteroid cavities are conserved in the α1β2γ2 receptor and all of them are able to bind neurosteroids. Two different binding modes were detected depending on the identity of the residue at position 241 in the transmembrane helix 1. These theoretical findings provide microscopic insights into neurosteroid binding at the heteropentameric GABAAR. The existence of two classes of sites may be associated with how neurosteroids modulate GABAAR. Our finding would represent the essential first step to reach a comprehensive understanding of how these endogenous molecules regulate the central nervous system.
Graphical abstract
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