Paper Citing NAMD - Abstract
Khrenova, Maria G.; Savitsky, Alexander P.; Topol, Igor A.; Nemukhin, Alexander V.
Exploration of the Zinc Finger Motif in Controlling Activity of Matrix Metalloproteinases
JOURNAL OF PHYSICAL CHEMISTRY B, 118:13505-13512, NOV 27 2014
Discovering ways to control the activity of matrix metalloproteinases (MMPs), zinc-dependent enzymes capable of degrading extracellular matrix proteins, is an important field of cancer research. We report here a novel strategy for assembling MMP inhibitors on the basis of oligopeptide ligands by exploring the pattern known as the zinc finger motif. Advanced molecular modeling tools were used to characterize the structural binding motifs of experimentally tested MMP inhibitors, as well as those of newly proposed peptidomimetics, in their zinc-containing active sites. The results of simulations based on the quantum mechanics/molecular mechanics (QM/MM) approach and Car-Parrinello molecular dynamics with QM/MM potentials demonstrate that, upon binding of Regasepin1, a known MMP-9 inhibitor, the Zn2+(His(3)) structural element is rearranged to the Zn2+(Cys(2)His(2)) zinc finger motif, in which two Cys residues are borrowed from the ligand. Following consideration of the crystal structure of MMP-2 with its inhibitor, the oligopeptide APP-IP, we proposed a new peptidomimetic with two replacements in the substrate, Tyr3Cys and Asp6Cys. Simulations show that this peptide variant blocks an enzyme active site by the Zn2+(Cys(2)His(2)) zinc finger construct. Similarly, a natural substrate of MMP-2, Ace-Gln-Gly similar to Ile-Ala-Gly-Nme, can be converted to an inhibiting compound by two replacements, Ile by Cys and Gly by the d isomer of Cys, favoring formation of the zinc finger motif.
