Design of potent B-Raf V600E inhibitors by multiple copy simulation search strategy.

B-Raf kinase is a vital intermedium in the mitogen-activated protein kinase (MAPK) signaling pathway, which transforms extracellular signals into cellular mechanisms. Mutations in this kinase, for instance, the most common V600E mutation, can lead to the ERK signaling pathologically activated and hence cause severe diseases such as somatic tumors. So far, the development of B-Raf inhibitors has made remarkable progress. However, the resistance and relapse of approved Raf drugs have been widely reported, and the optimization for old drugs and the discovery for new inhibitors still remain a significant task. In this study, we designed and evaluated a series of novel B-RafV600E inhibitors. A fragment library has been established before the docking simulation carried out using the MCSS strategy (multicopy simulation search). The appropriate fragments were reassembled to provide new candidate compounds, which were further screened by iterative docking simulations and molecular dynamics. Bioassays were carried out to evaluate the pharmacological profile of the compounds identified and synthesized. The result showed that compound 5n had an impressive enzyme inhibitory and antiproliferation activity, suggesting a promising potential in the future study.