Comparative analysis of compound NSC13728 as Omomyc homodimer stabilizer by molecular dynamics simulation and MM/GBSA free energy calculation.

Abstract

Myc is a master transcriptional regulator that controls almost all cellular processes, whose function is dependent on dimerization with its obligate partner Max. Stabilization of Max homodimer by small molecules (such as compound NSC13728) has proven an effective way to reduce the availability of Myc-Max dimer. Omomyc, a peptide inhibitor of Myc, is able to form Omomyc homodimer, which can competitively inhibit the binding of Myc-Max to the E-box of DNA. Considering the high amino acid sequence homology between Omomyc and Max, we put forward the hypothesis that Max-Max stabilizers could stabilize the Omomyc homodimer. Hence, through molecular dynamics (MD) simulation and molecular mechanics/generalized Born surface area (MM/GBSA) free energy calculation, we discovered that the stability of Omomyc-Omomyc is remarkably higher than that of Max-Max. Moreover, after adding the compound NSC13728 into the well-defined "Site 3," the binding affinity between two Omomyc monomers can be further increased. Compound NSC13728 has stronger binding interaction to Omomyc-Omomyc than to Max-Max. "Site 3" of Omomyc is more hydrophobic than that of Max, which enlightens us that the more potent Omomyc-Omomyc stabilizers may be hydrophobic in structure.