Theoretical research in structure characteristics of different inhibitors and differences of binding modes with CBP bromodomain

The CBP (CREB (cAMP responsive element binding protein) binding protein) bromodomain (BRD) could recognize and bind with acetyl K382 of human tumor suppressor protein p53 which the mutation of encoding gene might cause human cancers. CBP-BRD serves as a promising drug target for several disease pathways and a series of effective drug have been discovered. In this study, molecular dynamics (MD) simulations and molecular mechanics generalized born surface area (MM-GB/SA) approaches were performed to investigate the different binding modes between five inhibitors with CBP-BRD. Based on the energy and conformation analyses, a potent core fragment is chosen to act as the starting point for new inhibitor design by means of LUDI and rational drug design approaches. Then, T.E.S.T and molinspirition were applied to evaluate oral bioavailability and drug promiscuity of the new molecules. These results shed LIGHT on the idea for further inhibitor design.

Bromodomain; Inhibitor; LUDI; MD simulations; Rational design.