Comparative docking assessment of glucokinase interactions with its allosteric activators.

Glucokinase (GK) is expressed in multiple organs and plays a key role in hepatic glucose metabolism and pancreatic insulin secretion. GK could indeed serve as pacemaker of glycolysis and could be an attractive target for type 2 diabetes (T2D). The recent preclinical data of first GK activator RO-28-1675 has opened up a new field of GK activation as a powerful tool in T2D therapies. The GK allosteric site is located ~20A away from glucose binding site. Chemical structure of Glucokinase activators (GKA) includes three chemical arms; all consisting of cyclic moiety and joined in a shape resembling the letter Y. In this study, comparative docking assessment using Autodock4 revealed that the three arms bind to three aromatic/hydrophobic subpockets at the allosteric site. Our dockings have overall consistency with experimental data in both docking modes and simulated binding free energies, and offer insights on understanding GK/GKA interactions and further GKA design. Specifically, for the first pocket, involvement of Arg63 as key residue in two specific hydrogen-bond formations with all allosteric activators defines the binding feature; for the second pocket, it has the most diverse binding interactions, mostly aromatic, hydrophobic and multiple hydrogen bonds. The site has the best potential for further GKA optimization by utilizing aromatic heterocycles and hydrogen bond forming linkers to build the GKA 2(nd) arm.