Identification of an Evolutionarily Conserved Allosteric Network in Steroid Receptors

Allosteric pathways in proteins describe networks comprising amino acid residues which may facilitate the propagation of signals between distant sites. Through inter-residue interactions, dynamic and conformational changes can be transmitted from the site of perturbation to an allosteric site. While sophisticated computational methods have been developed to characterize such allosteric pathways linking specific sites on proteins, few attempts have been made to apply these approaches toward identifying new allosteric sites. Here, we use molecular dynamics simulations and suboptimal path analysis to discover new allosteric networks in steroid receptors with a focus on evolutionarily conserved pathways. Using modern receptors and a reconstructed ancestral receptor, we identify networks connecting several sites to the activation function surface 2 (AF-2), the site of coregulator recruitment. One of these networks is conserved across the entire family, connecting a predicted allosteric site located between helices 9 and 10 of the ligand-binding domain. We investigate the basis of this conserved network as well as the importance of this site, discovering that the site lies in a region of the ligand-binding domain characterized by conserved inter-residue contacts. This study suggests an evolutionarily importance of the helix 9-helix 10 site in steroid receptors and identifies an approach that may be applied to discover previously unknown allosteric sites in proteins.

Automated summary

Allosteric pathways in proteins involve networks of amino acid residues that transmit signals between distant sites. This study uses molecular dynamics simulations and suboptimal path analysis to discover new allosteric networks in steroid receptors, focusing on evolutionarily conserved pathways. The researchers identify a conserved network connecting a predicted allosteric site between helices 9 and 10 of the ligand-binding domain to the activation function surface 2 (AF-2). The study suggests the evolutionary importance of this site in steroid receptors and provides an approach to discover previously unknown allosteric sites in proteins.