Molecular Modelling of a Multiphosphorylated Sequence Motif Bound to Hydroxyapatite Surfaces

Proteins and peptides containing the multiphosphorylated motif -Ser(P)-Ser(P)- Ser(P)--Glu-Glu- stabilise amorphous calcium phosphate (ACP) in body fluids and bind with high affinity to crystalline calcium phosphate phases such as hydroxyapatite (HA) regulating crystal growth. Binding of this motif to hydroxyapatite surfaces was investigated in this study using molecular modelling techniques. Using a three-step computational procedure, we have determined the relative binding energies of the motif Ser(P)-Ser(P)-Ser(P)-Glu-Glu to different crystalline surfaces of HA. This analysis revealed preferences of the motif for (100) and (010) surfaces of the crystal and preferences for particular orientations on a given surface. These preferences are principally governed by electrostatic interactions between the crystal lattice and the peptide with the most stable conformers adopting structures where alternate residues exhibit backbone angles characteristic of a -strand and values of an -helix or a distorted -helix, allowing maximal interaction between the acidic side groups and surface calciums. The results of this study are consistent with experimentally-derived data on the interaction of multiphosphorylated proteins/peptides with HA and have implications for the role of these proteins/peptides in calcium phosphate stabilisation and biomineralisation processes.Electronic Supplementary Material available.