Discovery of inhibitors of four bromodomains by fragment-anchored ligand docking

TitleDiscovery of inhibitors of four bromodomains by fragment-anchored ligand docking
Publication TypeJournal Article
Year of Publication2017
AuthorsMarchand J.-R., Dalle Vedove A., Lolli G., Caflisch A.
JournalJournal of Chemical Information and Modeling
Volume57
Start Page2584
Issue10
Pagination2584-2597
Date Published2017 Sep 18
Type of ArticleResearch Article
KeywordsALTA, bromodomains, Crystallography, Drug Discovery, fragment-based docking, X-Ray
Abstract

The high-throughput docking protocol called ALTA-VS (anchor-based library tailoring approach for virtual screening) was developed in 2005 for the efficient in silico screening of large libraries of compounds by preselection of only those molecules that have optimal fragments (anchors) for the protein target. Here we present an updated version of ALTA-VS with a broader range of potential applications. The evaluation of binding energy makes use of a classical force field with implicit solvent in the continuum dielectric approximation. In about 2 days per protein target on a 96-core compute cluster (equipped with Xeon E3-1280 quad core processors at 2.5 GHz), the screening of a library of nearly 77 000 diverse molecules with the updated ALTA-VS protocol has resulted in the identification of 19, 3, 3, and 2 µM inhibitors of the human bromodomains ATAD2, BAZ2B, BRD4(1), and CREBBP, respectively. The success ratio (i.e., number of actives in a competition binding assay in vitro divided by the number of compounds tested) ranges from 8% to 13% in dose-response measurements. The poses predicted by fragment-based docking for the three ligands of the BAZ2B bromodomain were confirmed by protein X-ray crystallography.

DOI10.1021/acs.jcim.7b00336
pubindex

0226

Alternate JournalJ. Chem. Inf. Model.
PubMed ID28862840
Highlight Role: 
Drug Design